{"id":28,"date":"2016-06-22T16:40:53","date_gmt":"2016-06-22T20:40:53","guid":{"rendered":"https:\/\/1409.mae.ncsu.edu\/jiang\/?page_id=28"},"modified":"2026-04-27T16:08:04","modified_gmt":"2026-04-27T20:08:04","slug":"publications","status":"publish","type":"page","link":"https:\/\/mae.ncsu.edu\/jiang\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"
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Copyright<\/h3>\n
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Personal use of this material is permitted. However, permission to reprint\/republish this material for advertising or promotional purposes or for creating new collective works for resale or redistribution to servers or lists or to reuse any copyrighted component of this work in other works must be obtained from the publishers.<\/p>\n

Citation Summary<\/h3>\n
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\"Web<\/a><\/p>\n

Total Articles in Publication List: 340
\nSum of the Times Cited: 8062
\nAverage Citations per Article: 23.71
\nh-index: 47<\/p>\n

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\"Google<\/a><\/p>\n

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Sum of the Times Cited at Google Scholar = 12335
\nh-index= 60
\n(h-index: The largest number h such that h publications have at least h citations)
\ni10-index = 206<\/p>\n

Last updated: 07\/21\/2025<\/em><\/p>\n<\/div>\n<\/div>\n<\/div>\n

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Journal Papers<\/h3>\n
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Journal Cover Article<\/h4>\n

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\"Frontpage-Di-2013\"\"\"<\/p>\n

2026<\/h3>\n
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  1. Han, Xiang-Bin, Cong Yang, Rui Sun, Xiaotong Zhang, Thuc Mai, Zhengze Xu, Aryan Jouneghaninaseri, Xiaoning Jiang, Rahul Rao, Yi Xia, Dali Sun, Jun Liu, Xiaotong Li, “Coupled Ferroelectricity and Phonon Chirality, ” Nature Communications<\/em>, 2026. (Accepted)<\/li>\n
  2. Sun, Jeong-Woo, Andrei Fluerasu, Xiaoqian M. Chen, Zhengze Xu, Sang-Goo Lee, Wook Jo, Xiaoning Jiang, and Jong Eun Ryu, “A Statistical Approach to Analyzing Domain Dynamics in Ferroelectric Crystals Using X-Ray Photon Correlation Spectroscopy,” Acta Materialia<\/em>, 2026. (Accepted)<\/li>\n
  3. Khan, Haseeb, Paul A Dayton, Zhen Xu, Xiaoning Jiang, Jinwook Kim, “Evaluation of cavitation enhancements in low-boiling point (<\u2212 2\u00b0 C) perfluorocarbon nanodroplet and microbubble mixtures using therapeutic ultrasound pulses,” Ultrasonics Sonochemistry<\/em>, 2026. (accepted)<\/li>\n
  4. Choi, Woo-Jin\u00a0 Sangwook Kim, Hyunwook Nam, Hye-Lim Yu, Ho-Yong Lee, Sunho Moon, Huaiyu Wu, Jong Eun Ryu, Xiaoning Jiang, Kyoung-Seok Moon, Wook Jo, “Flexoelectricity enables piezoelectric single crystals to be self-poled,” npj Flexible Electronics<\/em>, 2026. (Accepted)<\/li>\n
  5. Huo, H., A. DiSpirito, N. Wang, C. Li, S. Moon, C. Qiu, K. Yin, H. Wu, B. Sun, R. Horstmeyer, W. Feng, X. Jiang, X. Ni, and J. Yao, \u201cFlexible ultrasound array for subcortical brain stimulation in humans: a simulation study,\u201d npj Acoustics<\/em>, 2026.<\/li>\n
  6. Chu, Yu, Ali Naderi, Huaiyu Wu, Xiangming Xue, Michael L. Oelze, and Xiaoning Jiang, \u201cRecent Advances in Transducers for Through-Tissue Ultrasonic Power Transfer,\u201d Progress in Biomedical Engineering<\/em>, 2026. (Accepted)<\/li>\n
  7. Timofeeva, Anastasia, Ziqi Wang, Zhengze Xu, Sipan Liu, Yusen Pei, Franky So, Xiaoning Jiang, Eunkyoung Shim, Kara Peters, and Jun Liu, \u201cIn-situ imaging of domain walls in ferroelectric single crystals by instant polarized light microscopy,\u201d Review of Scientific Instruments, 2026. (Accepted)<\/li>\n
  8. Kreager, Benjamin C., Wei-Yi Chang, Jian Tian, Huaiyu Wu, and Xiaoning Jiang, \u201cBiopsy Needle Integrated with Rotational Oblique Spectral Ultrasound (ROSUS) Imaging,\u201d Sensors<\/em>, 2026. (Accepted)<\/li>\n
  9. Xu, Zhengze, Udo Eckstein, Ziqi Wang, Haotian Wan, Ankit Negi, Ali Naderi, Jun Liu, Kyle Grant Webber, and Xiaoning Jiang, \u201cCryogenic to Beyond Curie Temperature Dielectric and Piezoelectric Properties of Pb(Mg1\/3Nb2\/3)O3-PbTiO3 Single Crystals under Alternate and Direct Current Poling,\u201d Journal of Applied Physics<\/i>, 2026. (Accepted)<\/li>\n<\/ol>\n

    2025<\/h3>\n
      \n
    1. Xue, Xiangming, Sunho Moon, Vidisha Ganesh, Qianqian Cai, Yu Chu, Ella Schropp, Daniel Roque, Tanya P. Garcia, Nitin Sharma, and Xiaoning Jiang, ”Wearable Ultrasound Sensing with Dual Arrays and Machine Learning for Real-Time Tremor Characterization and Antagonist Muscle Monitoring,” IEEE Transactions on Instrumentation & Measurement<\/em>, 2025<\/li>\n
    2. Kim, Howuk, Nicholas Garcia, Taeyang Kim, Austin Selley, Sean Kerrigan, Mohamed Bourham, and Xiaoning Jiang, “High-Temperature Damage Detection via Liquid Metallic Laser-Ultrasound Transmitter and <\/span>Shielded AlN Receiver,” Structural Health Monitoring<\/em>, 2025. (Accepted)<\/li>\n
    3. Huang, Ziping*, Mengyue Chen*, Charalambos C. Charalambous, Lei Zhu, Ergi Spiro, Shashank Shekhar, Jody Feld, Xiaoning Jiang, Junjie Yao, and Wuwei Feng. “A Methodological Protocol and Considerations for Transcranial Ultrasonic Stimulation in Exploratory Clinical Human Studies.”\u00a0JoVE<\/i>, 2025. (Accepted, *Equivalent contribution)<\/li>\n
    4. Wu, Huaiyu, Haotian Wan, Yu Chu, Chengtao Luo, Wei-Yi Chang, Mengyue Chen, and Xiaoning Jiang, \u201cStudy on Ultrasound Transducers with Alternating Current Poled Pb(Mg\u2081\/\u2083Nb\u2082\/\u2083)O\u2083\u2013xPbTiO\u2083 Single Crystals,\u201d IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/em>, 2025. (Accepted)<\/li>\n
    5. Liu, Qiong, Vijay Kumar Choyal, Han Hu, Timon Rabczuk, Xiaoning Jiang, and Xiaoying Zhuang, “Negative Out-of-Plane Electromechanical Response in Nonpiezoelectric van der Waals Layered Materials Encapsulated by Monolayer Boron Nitride,” J. Phys. Chem. Lett,<\/em>\u00a02025.<\/li>\n
    6. Xue, Xiangming, Vidisha Ganesh, Ashwin Iyer, Daniel Roque, Xiaoning Jiang, and Nitin Sharma, \u201cUltrasound-Enhanced Data-Driven Modeling for Characterizing Natural Wrist Tremor Dynamics,\u201d IEEE Journal of Biomedical and Health Informatics<\/em>, 2025. (Accepted)<\/li>\n
    7. Wu, Huaiyu, Howuk Kim, Benjamin C. Kreager, Ruth H. Vorder Bruegge, Oleksii Ostras, Mengyue Chen, Yueh Z. Lee, Gianmarco F. Pinton, Allen Cole Burks, and Xiaoning Jiang, “A Miniaturized Multidirectional Stacking Ultrasound Transducer for Endo-bronchoscopy Lung Nodule Ablation,” IEEE Transactions on Biomedical Engineering<\/em>, 2025. (Accepted)<\/li>\n
    8. Naderi, Ali, Zhengze Xu, Sipan Liu, and Xiaoning Jiang, “Dielectric and Piezoelectric Properties of Prestressed Pb(Mg\u2081\/\u2083Nb\u2082\/\u2083)O\u2083\u2013PbTiO\u2083 Single Crystals under Alternating and Direct Current Poling,” Applied Physics Letters<\/em>, 2025. (Accepted)<\/li>\n
    9. Hu, Han, Zhaowei Liu, Qiong Liu, Xiaoning Jiang, Xiaoying Zhuang, and Timon Rabczuk, “Computational flexoelectronics: A framework for analyzing PN junctions in flexoelectric semiconductors,” International Journal of Mechanical Sciences, <\/i>2025<\/li>\n
    10. Yamashita, Yohachi, Chen Xi, Jia Guo, Shintaro Matsumoto, Yan Sun, Yu Xiang, Hiroshi Maiwa, Zhengze Xu,\u00a0and<\/span><\/span> Xiaoning Jiang, “Piezoelectric properties of AC poled Mn-doped ternary system single crystals grown by continuous-feeding Bridgman method,” Japanese Journal of Applied Physics<\/em>, 2025. (Accepted)<\/li>\n
    11. Pu, Cong*, Ben Fu*, <\/span><\/span><\/span>Pengda Lu, <\/span><\/span>Xin\u00a0Guan, <\/span><\/span><\/span><\/span>Jiayi\u00a0Zhang, <\/span><\/span><\/span><\/span>Yuting\u00a0Shen, <\/span><\/span><\/span><\/span>Xiao\u00a0Li, <\/span><\/span><\/span><\/span>Lehang\u00a0Guo, <\/span><\/span><\/span><\/span>Huixiong\u00a0Xu, <\/span><\/span><\/span>Xiaoning Jiang, and\u00a0<\/span><\/span><\/span>Chang Peng, ”<\/span><\/span>A wearable spiral ultrasound patch for focused ultrasound peripheral neuromodulation of diabetic neuropathic pain<\/a>,” Cell Reports Physical Science<\/i>, 2025. (*Equivalent contribution)<\/li>\n
    12. Lee, Jaewon, Xiaoning Jiang, and Howuk Kim, ”Spatial Imaging of Local Degradations in Li-ion Batteries Using Sparsely Distributed Active Sensors,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/em>, 2025. (Accepted)<\/li>\n
    13. Shan, Li, Jin Woong Kwak, Fangying Chen, Kuwin Wyke, Dylan Boylan, Deepak Monga, Xiaoning Jiang, Dongsheng Brian Ma, and Xianming Dai, “Sustainable vaporization for electronics cooling via dynamic fluid delivery<\/a>,” Device<\/em>, 2025.<\/li>\n
    14. Sheng, Zhiyu, Ran Wei, Mengyue Chen, Matthew B. Wielgat, Dhanansayan Shanmuganayagam, Edith Tzeng, Xuecang Geng, Xiaoning Jiang, and Kang Kim, “Experimental Evaluation of an Array Transducer for Ultrasound Thermal Strain Imaging: Phantom and In Vivo Studies<\/a>,” Ultrasound in Medicine & Biology<\/em>, 2025.<\/li>\n
    15. Garcia, Nicholas, Huaiyu Wu, Quinn Fonner, Howuk Kim, Fapeng Yu, Shujun Zhang, and Xiaoning Jiang, “Characterization of Bismuth Silicon Oxide for high temperature ultrasound sensing<\/a>,” Ultrasonics<\/em>, 2025.<\/li>\n
    16. Sun, Jeong-Woo, Andrei Fluerasuc, Zhengze Xu, Sipan Liu, Sang-Goo Lee, Wook Jo, Xiaoning Jiang, and Jong Eun Ryu, “Enhanced domain dynamics in alternating current poled Pb(Mg1\/3Nb2\/3)O3-PbTiO3 single crystals<\/a>,” Journal of the American Ceramic Society<\/em>, 2025.<\/li>\n
    17. Wang, Zhaoqun, Wen Gao, Xiaorong Niu, Yuhang Liu, Zichen Jin, Fan Zhang, Zhengdong Cheng, Xiaoning Jiang, Wendong Zhang, Ting Wang, Jianlong Ji, Xiaojie Chai, and Shengbo Sang, “Ultra\u2010low LOD H2O2 Sensor Based on Synergistic Nernst Potential Effect<\/a>,” Advanced Science<\/em>, 2025.<\/li>\n
    18. Xu, Zhengze, Sipan Liu, Yohachi Yamashita, and Xiaoning Jiang, \u201cDielectric and piezoelectric properties of Mn-doped Pb(In1\/2Nb1\/2)O3\u2013Pb(Mg1\/3Nb2\/3)O3\u2013PbTiO3 single crystals with varying PbTiO3 content under alternate and direct current poling<\/a>,\u201d Journal of Applied Physics<\/em>, 2025.<\/li>\n
    19. Wang, Jing, Huaiyu Wu, Mengyue Chen, SMAN Shovon, Henry Ware, Chengzhi Shi, and Xiaoning Jiang, “Miniaturized vortex ultrasound transducers with different topological charges<\/a>,” Advanced Devices & Instrumentation<\/em>, 2025.<\/li>\n
    20. Sun, Jeong-Woo, Zhengze Xu, Sang-Goo Lee, Wook Jo, Xiaoning Jiang, and Jong Eun Ryu, “Electric field-induced depolarization of direct current and alternating current poled PMN-PT single crystals<\/a>,” Applied Physics Letters<\/em>, 2025.<\/li>\n
    21. Naderi, Ali, Sipan Liu, Jing Fu, Tianbing Xu, Shujun Zhang, Jong Eun Ryu, and Xiaoning Jiang, “Recent development in piezoelectric materials and devices for cryogenic environments<\/a>,” Sensors and Actuators A: Physical<\/em>, 2025.<\/li>\n
    22. Huang, Ziping, Charalambos C Charalambous, Mengyue Chen, Taewon Kim, Estate Sokhadze, Allen Song, Sin-Ho Jung, Shashank Shekhar, Jody A Feld, Xiaoning Jiang, and Wuwei Feng, “Low intensity focused ultrasound stimulation in stroke: A phase I safety & feasibility trial<\/a>,”\u00a0Brain Stimulation<\/em>, 2025.<\/li>\n<\/ol>\n

      2024<\/h3>\n
        \n
      1. Iyer, Ashwin, Xiangming Xue, Vidisha Ganesh, Xiaoning Jiang, Caterina Gallippi, Daniel Roque, and Nitin Sharma, “Ultrasound Imaging Triggered Tremor Suppression with Personalized Afferent Stimulation Frequency<\/a>,” IEEE Transactions on Biomedical Engineering<\/em>, 2024.<\/li>\n
      2. Sun, Jeong-Woo, Zhengze Xu, Sang Goo Lee, Wook Jo, Xiaoning Jiang, and Jong Eun Ryu, “A Review of Experimental Methods for Characterizing Ferroelectric Domain Dynamics in Relaxor-PbTiO3 Single Crystals<\/a>,” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/em>, 2024.<\/li>\n
      3. Qiong, Liu, Vijay Kumar Choyal, James E Morris, Timon Rabczuk, Xiaoning Jiang, and Xiaoying Zhuang, “Largely Enhanced Out-of-plane Electromechanical Coupling Effects in Two-dimensional Molybdenum-disulfide\/boron-nitride Heterostructures<\/a>,” Nano Research<\/em>, 2024.<\/li>\n
      4. Chen, Mengyue*, Zhiyu Sheng*, Ran Wei, Bohua Zhang, Howuk Kim, Huaiyu Wu, Yu Chu, Qiyang Chen, Andrew Breon, Sibo Li, Matthew B. Wielgat, Dhanansayan Shanmuganayagam, Edith Tzeng, Xuecang Geng, Kang Kim, Xiaoning Jiang, “Millisecond-level transient heating and temperature monitoring technique for ultrasound-induced thermal strain imaging<\/a>“, Theranostics, 2024<\/em>. ( *Equivalent contribution)<\/li>\n
      5. Moon, Sunho, Xiangming Xue, Vidisha Ganesh, Darpan Shukla, Benjamin C. Kreager, Qianqian Cai, Huaiyu Wu, Yong Zhu, Nitin Sharma, and Xiaoning Jiang, “Ultrasound-Compatible Electrode for Functional Electrical Stimulation<\/a>,” Biomedicines<\/em>, 2024.<\/li>\n
      6. Kim, Hwang-Pill, Mao-Hua Zhang, Bo Wang, Huaiyu Wu, Zhengze Xu, Sipan Liu, Sunho Moon, Yohachi Yamashita, Jong Eun Ryu, Jun Liu, Shujun Zhang, Long-Qing Chen, and Xiaoning Jiang, \u201cElectrical De-poling and Re-poling of Relaxor-PbTiO3 Piezoelectric Single Crystals without Heat Treatment<\/a>,\u201d Nature Communications<\/em>, 2024.<\/li>\n
      7. Yamashita, Yohachi, Ibuki Kurita, Mario Tanaka, Yu Xiang, Hiroshi Maiwa, Leong-Chew Lim, Zhengze Xu, Sipan Liu, Xiaoning Jiang, “Enhanced piezoelectrical properties of Pb(Zn1\/3Nb2\/3)O3 – PbTiO3 single crystals by AC poling<\/a>,” Japanese Journal of Applied Physics<\/em>, 2024.<\/li>\n
      8. Zhang, Jiayi, Yangbin Liu, Xiaoning Jiang, and Chang Peng, “Theoretical Analysis and Validation of High-Sensitivity and Broadband Ultrasonic Sensors for Under-Display Fingerprint Imaging<\/a>,” Measurement<\/em>, 2024.<\/li>\n
      9. Cheng, Teresa, Han Hu, Navid Valizadeh, Liu Qiong, Florian Bittner, Ling Yang, Timon Rabczuk, Xiaoning Jiang, Xiaoying Zhuang, “The Influence of Discontinuity-Induced Fringing Effect on the Output Performance of Contact-Separation Mode Triboelectric Nanogenerators: Experiment and Modeling Studies<\/a>.” Advanced Energy and Sustainability Research<\/em>, 2024.<\/li>\n
      10. Tian, Yiran, Jiaji Chen, Zheng Yan, Jingwei Xie, Xiaoning Jiang, Guangfu Li, Guoliang Huang, “Numerical modeling of ultrasound-triggered microneedle-mediated delivery of drug particles into bacterial biofilms<\/a>. ” Ultrasonics<\/em>, 2024.<\/li>\n
      11. Wu, Huaiyu*, Jinwook Kim*, Bohua Zhang*, Gabe Owens, Greyson Stocker, Mengyue Chen, Benjamin C. Kreager, Ashley Cornett, Kathlyne Bautista, Tarana Kaovasia, Paul A. Dayton, Zhen Xu, and Xiaoning Jiang, ” Rotational intravascular multi-direction ultrasound catheter for sonothrombolysis of retracted clots: in-vitro<\/em> and in-vivo<\/em> study<\/a>.” Engineering<\/em>, 2024. (*Equivalent contribution)<\/li>\n
      12. Wang, Guoliang, Shuai Hou, Linfang Xie, Xiangkang Peng, Yanlu Li, Xian Zhao, Shujun Zhang, Xiaoning Jiang, Fapeng Yu, “Shear Horizontal Guided Wave Sensors Based on CTGS Piezoelectric Crystal for High-Temperature Structural Health Monitoring<\/a>.” Advanced Electronic Materials (<\/em>2024): 2300851.<\/li>\n
      13. Yamashita, Yohachi, Yushi Yamagata, Yu Xiang, Hiroshi Maiwa, Zhengze Xu, Xiaoning Jiang, “Comparison of field cooling DC poling and AC poling for lead perovskite relaxor-PbTiO3 single crystals grown by continuous feeding Bridgman process<\/a>,” Japanese Journal of Applied Physics<\/em>, (2024): 63<\/b>\u00a004SP37<\/li>\n
      14. Li, Huiyuan, Zichen Jin, Xiaoning Jiang, Meiwen An, Jianlong Ji, and Di Huang. “Influence of reaction cell electrodes on organic electrochemical transistors.<\/a>”\u00a0Applied Physics Letters<\/i>\u00a0124, no. 9 (2024).<\/li>\n
      15. Fan, Mengdi, Guangda Wu, Huaiyu Wu, Nicholas Garcia, Xiaoning Jiang, Shujun Zhang, Xian Zhao, and Fapeng Yu. “Electro-elastic characteristics of KCsMoP2O9 crystal: Exploiting strong piezoelectricity for guided wave transducer applications.<\/a>”\u00a0Journal of Materiomics<\/i>\u00a0(2024).<\/li>\n
      16. Kreager, Benjamin C.*, Huaiyu Wu*, Wei-Yi Chang, Sunho Moon, Josh Mitchell, Chang Peng, Chih-Chung Huang, Marie Muller, Jian Tian, and Xiaoning Jiang. “High-Performance PMN-PT Single-Crystal-Based 1-3 Composite Transducer Integrated with a Biopsy Needle.<\/a>” Biosensors<\/i> 14, no. 2 (2024): 74. (*Equivalent contribution)<\/li>\n
      17. Garcia, Nicholas, Howuk Kim, Kaushik Vinod, Abinash Sahoo, Michael Wax, Taeyang Kim, Tiegang Fang, Venkat Narayanaswamy, Huaiyu Wu, and Xiaoning Jiang. “Carbon nanofibers\/liquid metal composites for high temperature laser ultrasound.<\/a>”\u00a0Ultrasonics<\/i>\u00a0(2024): 107245.<\/li>\n<\/ol>\n

        2023<\/h3>\n
          \n
        1. Xue, Xiangming*, Huaiyu Wu*, Qianqian Cai, Mengyue Chen, Sunho Moon, Ziping Huang, Taeyang Kim, Chang Peng, Wuwei Feng, Nitin Sharma, Xiaoning Jiang. “Flexible Ultrasonic Transducers for Wearable Biomedical Applications: A Review on Advanced Materials, Structural Designs, and Future Prospects<\/a>.” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/em>. (*Equivalent contribution)<\/li>\n
        2. Osada, Takuya, Xiaoning Jiang, Yuhang Zhao, Mengyue Chen, Benjamin C. Kreager, Huaiyu Wu, Howuk Kim et al. “The use of histotripsy as intratumoral immunotherapy beyond tissue ablation\u2014the rationale for exploring the immune effects of histotripsy.<\/a>”\u00a0International Journal of Hyperthermia<\/i>\u00a040, no. 1 (2023): 2263672.<\/li>\n
        3. Kim, Howuk, Bohua Zhang, Huaiyu Wu, Junjie Yao, Chengzhi Shi, and Xiaoning Jiang. “Vortex-ultrasound for microbubble-mediated thrombolysis of retracted clots.<\/a>”\u00a0Applied Physics Letters<\/i> 123, no. 7 (2023).<\/li>\n
        4. Peng, Chang, Huaiyu Wu, and Xiaoning Jiang. “Nanotechnology-Enabled Ultrasound Transducers.<\/a>”\u00a0IEEE Nanotechnology Magazine<\/i>\u00a0(2023).<\/li>\n
        5. Ji, Jianlong, Zhenxing Wang, Fan Zhang, Bin Wang, Yan Niu, Xiaoning Jiang, Zeng\u2010ying Qiao et al. “Pulse electrochemical synaptic transistor for supersensitive and ultrafast biosensors.<\/a>”\u00a0InfoMat<\/i>\u00a0(2023): e12478.<\/li>\n
        6. Yamashita, Yohachi, Haiyang Sun, Yu Xiang, Hiroshi Maiwa, Ho-Yong Lee, Hwang-Pill Kim, and Xiaoning Jiang. “Enhanced electrical properties by AC poling of relaxor-Pb (Zr, Ti) O3 single crystals manufactured by solid state crystal growth method.<\/a>”\u00a0Japanese Journal of Applied Physics<\/i>\u00a0(2023).<\/li>\n
        7. Sharma, Nitin, Xiangming Xue, Ashwin Iyer, Xiaoning Jiang, and Daniel Roque. “Towards Ultrasound Imaging-based Closed-loop Peripheral Nerve Stimulation for Tremor Suppression.<\/a>”\u00a0Current Opinion in Biomedical Engineering<\/i>\u00a0(2023): 100484.<\/li>\n
        8. Zhang, Bohua, and Xiaoning Jiang. “Magnetic Nanoparticles Mediated Thrombolysis\u2013a Review.<\/a>”\u00a0IEEE Open Journal of Nanotechnology<\/i>\u00a0(2023).<\/li>\n
        9. Naderi, Ali, Tran Quoc-Thai, Xiaoying Zhuang, and Xiaoning Jiang. “Vibration Analysis of a Unimorph Nanobeam with a Dielectric Layer of Both Flexoelectricity and Piezoelectricity.<\/a>”\u00a0Materials<\/i>\u00a016, no. 9 (2023): 3485.<\/li>\n
        10. Negi, Ankit, Alejandro Rodriguez, Xuanyi Zhang, Andrew H. Comstock, Cong Yang, Dali Sun, Xiaoning Jiang, Divine Kumah, Ming Hu, and Jun Liu. “Thickness\u2010Dependent Thermal Conductivity and Phonon Mean Free Path Distribution in Single\u2010Crystalline Barium Titanate.<\/a>”\u00a0Advanced Science<\/i>\u00a0(2023): 2301273.<\/li>\n
        11. Kabakov, Peter, Taeyang Kim, Zhenxiang Cheng, Xiaoning Jiang, and Shujun Zhang. “The Versatility of Piezoelectric Composites.<\/a>”\u00a0Annual Review of Materials Research<\/i>\u00a053 (2023).<\/li>\n
        12. Negi, Ankit, Hwang Pill Kim, Zilong Hua, Anastasia Timofeeva, Xuanyi Zhang, Yong Zhu, Kara Peters, Divine Kumah, Xiaoning Jiang, and Jun Liu. “Ferroelectric Domain Wall Engineering Enabled Thermal Modulation in PMN\u2010PT Single Crystals.<\/a>”\u00a0Advanced Materials<\/i>\u00a0(2023): 2211286.<\/li>\n
        13. Bautista, Kathlyne Jayne B., Jinwook Kim, Zhen Xu, Xiaoning Jiang, and Paul A. Dayton. “Current Status of Sub-micron Cavitation-Enhancing Agents for Sonothrombolysis.<\/a>” Ultrasound in Medicine & Biology<\/em> (2023).<\/li>\n
        14. Wu, Huaiyu, Yuqi Tang, Bohua Zhang, Paul Klippel, Yun Jing, Junjie Yao, and Xiaoning Jiang. “Miniaturized Stacked Transducer for Intravascular Sonothrombolysis with Internal-illumination Photoacoustic Imaging Guidance and Clot Characterization.<\/a>” IEEE Transactions on Biomedical Engineering<\/em> (2023).<\/li>\n
        15. Kim, Howuk, Huaiyu Wu, Mengyue Chen, Xuming Dai, Ruihai Zhou, and Xiaoning Jiang. “Intravascular sono-ablation for in-stent restenosis relief: Transducer development and the in-vitro demonstration.<\/a>”\u00a0IEEE Transactions on Biomedical Engineering<\/i>\u00a0(2023).<\/li>\n
        16. Xue, Xiangming, Bohua Zhang, Sunho Moon, Guo-Xuan Xu, Chih-Chung Huang, Nitin Sharma, and Xiaoning Jiang. “Development of a Wearable Ultrasound Transducer for Sensing Muscle Activities in Assistive Robotics Applications.<\/a>”\u00a0Biosensors<\/i>\u00a013, no. 1 (2023): 134.<\/li>\n
        17. Kim, Howuk, Bharat Balagopal, Sean Kerrigan, Nicholas Garcia, Mo-Yuen Chow, Mohamed Bourham, Tiegang Fang, and Xiaoning Jiang. “Noninvasive liquid level sensing with laser generated ultrasonic waves.<\/a>”\u00a0Ultrasonics<\/i>\u00a0(2023): 106926.<\/li>\n
        18. Kim, Howuk, Xiaoning Jiang. “Numerical Study of a Miniaturized, 1\u20133 Piezoelectric Composite Focused Ultrasound Transducer<\/a>.” Applied Sciences<\/em>, vol. 13 (2023): 615.<\/li>\n
        19. He, Yashuo, Haotian Wan, Xiaoning Jiang, and Chang Peng. “Piezoelectric Micromachined Ultrasound Transducer Technology: Recent Advances and Applications.<\/a>”\u00a0Biosensors<\/i>\u00a013, no. 1 (2023): 55.<\/li>\n
        20. Zhang, Bohua*, Huaiyu Wu*, Howuk Kim*, Phoebe J. Welch, Ashley Cornett, Greyson Stocker, Raul G. Nogueira et al. “A Model of High-Speed Endovascular Sonothrombolysis with Vortex Ultrasound-Induced Shear Stress to Treat Cerebral Venous Sinus Thrombosis.<\/a>”\u00a0Research<\/i> 6 (2023): 0048. (*Equivalent contribution)<\/li>\n<\/ol>\n

          2022<\/h3>\n
            \n
          1. Kim, Hwang-Pill, Haotian Wan, Ho-Yong Lee, Yohachi Yamashita, Wook Jo, and Xiaoning Jiang. “Thermal stability studies of alternating current poled Pb (Mg1\/3Nb2\/3) O3-PbTiO3 single crystals grown by solid-state crystal growth.<\/a>”\u00a0Materials Research Letters<\/i>\u00a011, no. 5 (2023): 383-390.<\/li>\n
          2. Peng, Chang, Qianqian Cai, Mengyue Chen, and Xiaoning Jiang. “Recent Advances in Tracking Devices for Biomedical Ultrasound Imaging Applications.<\/a>”\u00a0Micromachines<\/i>\u00a013, no. 11 (2022): 1855.<\/li>\n
          3. Chen, Mengyue, Chang Peng, Huaiyu Wu, Chih-Chung Huang, Taewon Kim, Zachary Traylor, Marie Muller, Pratik Y. Chhatbar, Chang S. Nam, Wuwei Feng, Xiaoning Jiang. “Numerical and experimental evaluation of low-intensity transcranial focused ultrasound wave propagation using human skulls for brain neuromodulation<\/a>.” Medical Physics<\/em> (2022).<\/li>\n
          4. Cai, Qianqian, Jiale Hu, Mengyue Chen, Juan Prieto, Alan Rosenbaum, Jeffrey Stringer, Xiaoning Jiang. “Inertial Measurement Unit Assisted Ultrasonic Tracking System for Ultrasound Probe Localization<\/a>” IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/i> (2022).<\/li>\n
          5. Sun, Yiqin, Yuhei Ota, Tadashi Fujii, Yohachi Yamashita, Hwang-Pill Kim, Haotian Wan, Xiaoning Jiang, Tomoaki Karaki. “Enhanced Properties of 3 MHz Sliver-Mode Vibrators for Cardiac Probes with Alternating Current Poling for Pb(Mg1\/3<\/sub>Nb2\/3<\/sub>)O3<\/sub>-PbTiO3<\/sub> Single Crystals.<\/a>” IEEE Transactions on Ultrasonics, <\/i>Ferroelectrics, and Frequency Control<\/i>\u00a0(2022).<\/li>\n
          6. Sun, Yiqin, Yuhei Ota, Hwang-Pill Kim, Zhuangkai Wang, Tadashi Fujii, Yohachi Yamashita, Tomoaki KARAKI, and Xiaoning Jiang. “Enhanced piezoelectric and dielectric properties of AC poled sliver-mode Pb (In1\/2<\/sub>Nb1\/2<\/sub>) O3<\/sub>-Pb (Mg1\/3<\/sub>Nb2\/3<\/sub>) O3<\/sub>-PbTiO3<\/sub> single crystals for ultrasonic abdomen probes.<\/a>”\u00a0Japanese Journal of Applied Physics<\/i>\u00a0(2022).<\/li>\n
          7. Rayes, Adnan, Junhang Zhang, Gengxi Lu, Xuejun Qian, Stuart T. Schroff, Robert Ryu, Xiaoning Jiang, and Qifa Zhou. “Estimating Thrombus Elasticity by Shear Wave Elastography to Evaluate Ultrasound Thrombolysis for Thrombus with Different Stiffness.<\/a>”\u00a0IEEE Transactions on Biomedical Engineering<\/i>\u00a0(2022).<\/li>\n
          8. Kim, Hwang-Pill, Haotian Wan, Chengtao Luo, Yiqin Sun, Yohachi Yamashita, Tomoaki Karaki, Ho-Yong Lee, and Xiaoning Jiang. “A Review on Alternating Current Poling for Perovskite Relaxor-PbTiO3<\/sub> Single Crystals.<\/a>”\u00a0IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/i> (2022, Cover Image).<\/li>\n
          9. Liu, Sipan, Howuk Kim, Wenbin Huang, Wei-Yi Chang, Xiaoning Jiang, and Jong Eun Ryu. “Multiscale and Multiphysics FEA simulation and materials optimization for laser ultrasound transducers.<\/a>”\u00a0Materials Today Communications<\/i>\u00a0(2022): 103599.<\/li>\n
          10. Wan, Haotian, Chengtao Luo, Hwang-Pill Kim, Ching-Chang Chung, Wei-Yi Chang, Yohachi Yamashita, and Xiaoning Jiang. “The overpoling effect of alternating current poling on rhombohedral Pb (Mg1\/3<\/sub>Nb2\/3<\/sub>) O3<\/sub>-PbTiO3<\/sub> single crystals.<\/a>”\u00a0Applied Physics Letters<\/i>\u00a0120, no. 19 (2022): 192901.<\/li>\n
          11. Truong, Thi-Thuyet, Wen-Tai Chiu, Yi-Shyun Lai, Hsien Huangm, Xiaoning Jiang, Chih-Chung Huang. “Ca2+<\/sup> signaling\u2013mediated low-intensity pulsed ultrasound-induced proliferation and activation of motor neuron cells.<\/a>” Ultrasonics<\/i> 124 (2022): 106739.<\/li>\n
          12. Kim, Hwang-Pill, Haotian Wan, Xuanming Lu, Yohachi Yamashita, and Xiaoning Jiang. “Scaling effects in the alternating-current poling of thin PIN-PMN-PT single crystals.<\/a>”\u00a0Applied Physics Letters<\/i>\u00a0120, no. 14 (2022): 142901.<\/li>\n
          13. Yamashita, Yohachi, Tomoaki Karaki, Ho-Yong Lee, Haotian Wan, Hwang-Pill Kim, and Xiaoning Jiang. “A Review of Lead Perovskite Piezoelectric Single Crystals and Their Medical Transducers Application.<\/a>”\u00a0IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/i>\u00a0(2022).<\/li>\n
          14. Xu, Guo-Xuan, Pei-Yu Chen, Xiaoning Jiang, and Chih-Chung Huang. “Visualization of Human Skeletal Muscle Anisotropy by Using Dual-Direction Shear Wave Imaging.<\/a>”\u00a0IEEE Transactions on Biomedical Engineering<\/i> (2022).<\/li>\n
          15. Wu, Huaiyu, Bohua Zhang, Chih-Chung Huang, Chang Peng, Qifa Zhou, and Xiaoning Jiang. “Ultrasound-guided Intravascular Sonothrombolysis with a Dual Mode Ultrasound Catheter: In-vitro study.<\/a>”\u00a0IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/i> (2022).<\/li>\n
          16. Tang, Yuqi*, Huaiyu Wu*, Paul Klippel, Bohua Zhang, Hsiao-Ying Shadow Huang, Yun Jing, Xiaoning Jiang, and Junjie Yao. “Deep thrombosis characterization using photoacoustic imaging with intravascular light delivery.<\/a>”\u00a0Biomedical Engineering Letters<\/i>\u00a0(2022): 1-11. (*Equivalent contribution)<\/li>\n<\/ol>\n

            2021<\/h3>\n
              \n
            1. Kim, Jinwook, Kathlyne Jayne B. Bautista, Ryan M. De Ruiter, Leela Goel, Xiaoning Jiang, Zhen Xu, and Paul A. Dayton. “An Analysis of Sonothrombolysis and Cavitation for Retracted and Unretracted Clots Using Microbubbles Versus Low Boiling Point Nanodroplets.<\/a>”\u00a0IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/i>\u00a0(2021).<\/li>\n
            2. Liu, Chang, Jie Wang, and Xiaoning Jiang. “A phase-field simulation-based approach to determine flexoelectric coefficients from hysteresis loop of ferroelectrics.<\/a>”\u00a0Journal of Applied Physics<\/i>\u00a0130, no. 14 (2021): 145103.<\/li>\n
            3. Stocker, Greyson E., Jiaqi Shi, Kimberly Ives, Adam D. Maxwell, Paul A. Dayton, Xiaoning Jiang, Zhen Xu, and Gabe E. Owens. “In Vivo Porcine Aged Deep Vein Thrombosis Model for Testing Ultrasound-based Thrombolysis Techniques.<\/a>”\u00a0Ultrasound in Medicine & Biology<\/i>\u00a047, no. 12 (2021): 3447-3457.<\/li>\n
            4. Kim, Taeyang, Howuk Kim, and Xiaoning Jiang. “Laser ultrasonic defect localization using an omni-arrayed candle soot nanoparticle patch.<\/a>”\u00a0Japanese Journal of Applied Physics<\/i>\u00a060, no. 10 (2021): 100903.<\/li>\n
            5. Wu, Huaiyu, Leela D. Goel, Howuk Kim, Bohua Zhang, Jinwook Kim, Paul A. Dayton, Zhen Xu, and Xiaoning Jiang. “Dual-Frequency Intravascular Sonothrombolysis: An In Vitro Study.<\/a>”\u00a0IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/i>\u00a068, no. 12 (2021): 3599-3607.<\/li>\n
            6. Goel, Leela, Huaiyu Wu, Bohua Zhang, Jinwook Kim, Paul A. Dayton, Zhen Xu, and Xiaoning Jiang. “Safety Evaluation of a Forward-Viewing Intravascular Transducer for Sonothrombolysis: An in Vitro and ex Vivo Study.<\/a>”\u00a0Ultrasound in Medicine & Biology<\/i>\u00a047, no. 11 (2021): 3231-3239.<\/li>\n
            7. Kim, Howuk, Jinwook Kim, Huaiyu Wu, Bohua Zhang, Paul A. Dayton, and Xiaoning Jiang. “A multi-pillar piezoelectric stack transducer for nanodroplet mediated intravascular sonothrombolysis.<\/a>”\u00a0Ultrasonics<\/i>\u00a0116 (2021): 106520.<\/li>\n
            8. Zhang, B., H. Wu, L. Goel, H. Kim, C. Peng, J. Kim, P. A. Dayton, Y. Gao, and X. Jiang, “Zhang, Bohua, Huaiyu Wu, Leela Goel, Howuk Kim, Chang Peng, Jinwook Kim, Paul A. Dayton, Yu Gao, and Xiaoning Jiang. “Magneto-sonothrombolysis with combination of magnetic microbubbles and nanodroplets.<\/a>”\u00a0Ultrasonics<\/i>\u00a0116 (2021): 106487.”, Ultrasonics, <\/i>2021.<\/li>\n
            9. Peng, Chang, Huaiyu Wu, Seungsoo Kim, Xuming Dai, and Xiaoning Jiang. “Recent advances in transducers for intravascular ultrasound (IVUS) imaging.<\/a>”\u00a0Sensors<\/i> 21, no. 10 (2021): 3540. (Editor\u2019s Choice Article)<\/li>\n
            10. Ji, Jianlong, Hongwang Wang, Ran Liu, Xiaoning Jiang, Qiang Zhang, Yubo Peng, Shengbo Sang, Qijun Sun, and Zhong Lin Wang. “Dual-liquid-gated electrochemical transistor and its neuromorphic behaviors.<\/a>”\u00a0Nano Energy<\/i>\u00a087 (2021): 106116.<\/li>\n
            11. Kim, Howuk, Kyunghoon Kim, Nicholas Garcia, Tiegang Fang, and Xiaoning Jiang. “Liquid metallic laser ultrasound transducer for high-temperature applications.<\/a>”\u00a0Applied Physics Letters<\/i>\u00a0118, no. 18 (2021): 183502.<\/li>\n
            12. Mac Grory, Brian, Matthew Schrag, Sven Poli, Chantal J. Boisvert, Martin S. Spitzer, Maximillian Schultheiss, Max Nedelmann et al. “Structural and functional imaging of the retina in central retinal artery occlusion\u2013current approaches and future directions.<\/a>”\u00a0Journal of Stroke and Cerebrovascular Diseases<\/i>\u00a030, no. 7 (2021): 105828.<\/li>\n
            13. Peng, Chang, Mengyue Chen, James B. Spicer, and Xiaoning Jiang. “Acoustics at the nanoscale (nanoacoustics): A comprehensive literature review. Part I: Materials, devices and selected applications.<\/a>”\u00a0Sensors and Actuators A: Physical<\/i>\u00a0332 (2021): 112719.<\/li>\n
            14. Peng, Chang, Mengyue Chen, James B. Spicer, and Xiaoning Jiang. “Acoustics at the nanoscale (nanoacoustics): A comprehensive literature review. Part II: Nanoacoustics for biomedical imaging and therapy.<\/a>”\u00a0Sensors and Actuators A: Physical<\/i>\u00a0332 (2021): 112925.<\/li>\n
            15. Nam, Chang S., Zachary Traylor, Mengyue Chen, Xiaoning Jiang, Wuwei Feng, and Pratik Yashvant Chhatbar. “Direct Communication Between Brains: A Systematic PRISMA Review of Brain-To-Brain Interface.<\/a>”\u00a0Frontiers in neurorobotics<\/i>\u00a015 (2021): 39.<\/li>\n
            16. Kim, Kyungrim, Jinwook Kim, Xiaoning Jiang, and Taeyang Kim. “Static force measurement using piezoelectric sensors.<\/a>”\u00a0Journal of Sensors<\/i>\u00a02021 (2021).<\/li>\n
            17. Kim, Taewon, Christine Park, Pratik Y. Chhatbar, Jody Feld, Brian Mac Grory, Chang S. Nam, Pu Wang, Mengyue Chen, Xiaoning Jiang, and Wuwei Feng. “Effect of low intensity transcranial ultrasound stimulation on neuromodulation in animals and humans: an updated systematic review.<\/a>”\u00a0Frontiers in neuroscience<\/i>\u00a015 (2021): 375.<\/li>\n
            18. Wan, Haotian, Chengtao Luo, Ching-Chang Chung, Yohachi Yamashita, and Xiaoning Jiang. “Enhanced dielectric and piezoelectric properties of manganese-doped Pb (In1\/2Nb1\/2) O3-Pb (Mg1\/3Nb2\/3) O3-PbTiO3 single crystals by alternating current poling.<\/a>”\u00a0Applied Physics Letters<\/i>\u00a0118, no. 10 (2021): 102904.<\/li>\n
            19. Wan, Haotian*, Chengtao Luo*, Chang Liu*, Wei-Yi Chang, Yohachi Yamashita, and Xiaoning Jiang. “Alternating current poling on sliver-mode rhombohedral Pb (Mg1\/3Nb2\/3) O3-PbTiO3 single crystals.<\/a>” Acta Materialia<\/i>\u00a0208 (2021): 116759. (*Equivalent contribution)<\/li>\n
            20. Cai, Qianqian, Chang Peng, Jian-Yu Lu, Juan C. Prieto, Alan J. Rosenbaum, Jeffrey SA Stringer, and Xiaoning Jiang. “Performance Enhanced Ultrasound Probe Tracking With a Hemispherical Marker Rigid Body.<\/a>”\u00a0IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/i>\u00a068, no. 6 (2021): 2155-2163.<\/li>\n
            21. Peng, Chang, Mengyue Chen, and Xiaoning Jiang. “Under-display ultrasonic fingerprint recognition with finger vessel imaging.<\/a>”\u00a0IEEE Sensors Journal<\/i>\u00a021, no. 6 (2021): 7412-7419.<\/li>\n<\/ol>\n

              2020<\/h3>\n
                \n
              1. Goel, Leela, Huaiyu Wu, Bohua Zhang, Jinwook Kim, Paul A. Dayton, Zhen Xu, and Xiaoning Jiang. “Nanodroplet-mediated catheter-directed sonothrombolysis of retracted blood clots.<\/a>”\u00a0Microsystems & nanoengineering<\/i>\u00a07, no. 1 (2021): 1-7.<\/li>\n
              2. Wu, Huaiyu, Md Murad Hossain, Howuk Kim, Caterina M. Gallippi, and Xiaoning Jiang. “A 1.5-D Array for Acoustic Radiation Force (ARF)-Induced Peak Displacement-Based Tissue Anisotropy Assessment With a Row-Column Excitation Method.<\/a>”\u00a0IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/i>\u00a068, no. 4 (2020): 1278-1287.<\/li>\n
              3. Peng, Chang, Mengyue Chen, Hun Ki Sim, Yong Zhu, and Xiaoning Jiang. “Noninvasive and nonocclusive blood pressure monitoring via a flexible piezo-composite ultrasonic sensor.<\/a>”\u00a0IEEE Sensors Journal<\/i>\u00a021, no. 3 (2020): 2642-2650.<\/li>\n
              4. Yu, Hyeonggeun, Jinwook Kim, Howuk Kim, Nilesh Barange, Xiaoning Jiang, and Franky So. “Direct acoustic imaging using a piezoelectric organic light-emitting diode.<\/a>”\u00a0ACS Applied Materials & Interfaces<\/i>\u00a012, no. 32 (2020): 36409-36416.<\/li>\n
              5. Kim, Jinwook, Ryan M. DeRuiter, Leela Goel, Zhen Xu, Xiaoning Jiang, and Paul A. Dayton. “A comparison of sonothrombolysis in aged clots between low-boiling-point phase-change nanodroplets and microbubbles of the same composition.<\/a>”\u00a0Ultrasound in medicine & biology<\/i>\u00a046, no. 11 (2020): 3059-3068.<\/li>\n
              6. Ji, Jianlong, Jingjing Zhang, Jingxiao Wang, Qing Huang, Xiaoning Jiang, Wendong Zhang, Shengbo Sang, Xiaoliang Guo, and Shanshan Li. “Three-dimensional analyses of cells\u2019 positioning on the quadrupole-electrode microfluid chip considering the coupling effect of nDEP, ACEO, and ETF.<\/a>”\u00a0Biosensors and Bioelectronics<\/i>\u00a0165 (2020): 112398.<\/li>\n
              7. Ji, Jianlong, Jingxiao Wang, Liu Wang, Qiang Zhang, Qianqian Duan, Shengbo Sang, Qing Huang, Shanshan Li, Wendong Zhang, and Xiaoning Jiang. “Dynamic-coupling analyses of cells localization by the negative dielectrophoresis.<\/a>”\u00a0Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science<\/i>\u00a0235, no. 2 (2021): 402-411.<\/li>\n
              8. Peng, Chang, Mengyue Chen, Hongchao Wang, Jian Shen, and Xiaoning Jiang. “P (VDF-TrFE) thin-film-based transducer for under-display ultrasonic fingerprint sensing applications.<\/a>”\u00a0IEEE Sensors Journal<\/i>\u00a020, no. 19 (2020): 11221-11228.<\/li>\n
              9. Kim, Howuk, Sean Kerrigan, Mohamed Bourham, and Xiaoning Jiang. “AlN single crystal accelerometer for nuclear power plants.<\/a>”\u00a0IEEE Transactions on Industrial Electronics<\/i>\u00a068, no. 6 (2020): 5346-5354.<\/li>\n
              10. Kim, Howuk, Wei-Yi Chang, Taeyang Kim, and Xiaoning Jiang. “Stress-Sensing Method via Laser-Generated Ultrasound Wave Using Candle Soot Nanoparticle Composite.<\/a>”\u00a0IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control<\/i>\u00a067, no. 9 (2020): 1867-1876. (2020 Highly Cited Article)<\/li>\n
              11. Peng, Chang, Mengyue Chen, Hongchao Wang, Jian Shen, and Xiaoning Jiang. “Broadband piezoelectric transducers for under-display ultrasonic fingerprint sensing applications.<\/a>”\u00a0IEEE Transactions on Industrial Electronics<\/i>\u00a068, no. 5 (2020): 4426-4434.<\/li>\n
              12. Shu, Longlong, Shanming Ke, Linfeng Fei, Wenbin Huang, Zhiguo Wang, Jinhui Gong, Xiaoning Jiang et al. “Photoflexoelectric effect in halide perovskites.<\/a>”\u00a0Nature materials<\/i> 19, no. 6 (2020): 605-609.<\/li>\n
              13. Goel, Leela, Huaiyu Wu, Howuk Kim, Bohua Zhang, Jinwook Kim, Paul A. Dayton, Zhen Xu, and Xiaoning Jiang. “Examining the influence of low-dose tissue plasminogen activator on microbubble-mediated forward-viewing intravascular sonothrombolysis.<\/a>”\u00a0Ultrasound in medicine & biology<\/i>\u00a046, no. 7 (2020): 1698-1706.<\/li>\n
              14. Goel, Leela, and Xiaoning Jiang. “Advances in sonothrombolysis techniques using piezoelectric transducers.<\/a>”\u00a0Sensors<\/i>\u00a020, no. 5 (2020): 1288.<\/li>\n
              15. Kim, Kyungrim, Taeyang Kim, Jinwook Kim, and Xiaoning Jiang. “A face-shear mode piezoelectric array sensor for elasticity and force measurement.<\/a>”\u00a0Sensors<\/i>\u00a020, no. 3 (2020): 604.<\/li>\n
              16. Luo, Chengtao, Wei-Yi Chang, Min Gao, Chih-Hao Chang, Jiefang Li, Dwight Viehland, Jian Tian, and Xiaoning Jiang. “Multi-layered domain morphology in relaxor single crystals with nano-patterned composite electrode.<\/a>”\u00a0Acta Materialia<\/i>\u00a0182 (2020): 10-17.<\/li>\n<\/ol>\n

                2019<\/h3>\n
                  \n
                1. Lu, Qi., S. Huang, G. Fu., A. Li, S. Zhou, and X. Jiang, \u201cModeling of the flexoelectric annular microplate based on strain gradient elasticity theory<\/a>“, Mechanics of Advanced Materials and Structures<\/em> 26.23 (2019): 1958-1968.<\/li>\n
                2. Kim, H., H. Wu, N. Cho, P. Zhong, K. Mahmood, H. Lyerly, and X. Jiang, “Miniaturized Intracavitary Forward-Looking Ultrasound Transducer for Tissue Ablation<\/a>“, IEEE Transactions on Biomedical Engineering (2019)<\/em>.<\/li>\n
                3. Luo, C.*, H. Wan*, W.-Y. Chang, Y. Yamashita, A. Paterson, J. Jones, and X. Jiang, “Effect of Low-Frequency Alternating Current Poling on 5-mm-Thick 0.7Pb(Mg1\/3<\/sub>Nb2\/3<\/sub>)O3<\/sub>-0.3PbTiO3<\/sub> Single Crystals<\/a>“, Applied Physics Letters<\/i> 115.19 (2019): 192904. (*Equivalent contribution)<\/li>\n
                4. Kim, H., T. Kim, D. Morrow, and X. Jiang, “Stress Measurement of a Pressurized Vessel Using Ultrasonic Subsurface Longitudinal Wave with 1-3 Composite Transducers<\/a>“, IEEE transactions on ultrasonics, ferroelectrics, and frequency control<\/i> 67.1 (2019): 158-166.<\/li>\n
                5. Kim, T., W.-Y. Chang, H. Kim, and X. Jiang, “Narrow Band Photoacoustic Lamb Wave Generation for Nondestructive testing using Candle Soot Nanoparticle Patches<\/a>“, Applied Physics Letters<\/i> 115.10 (2019): 102902.<\/li>\n
                6. Kim, T., Z. Cui, W.-Y. Chang, H. Kim, Y. Zhu, and X. Jiang, “Flexible 1-3 Composite Ultrasound Transducers with Silver Nanowire-based Stretchable Electrodes<\/a>“, IEEE Transactions on Industrial Electronics<\/em> (2019).<\/li>\n
                7. Ji, J., M. Li, Z. Chen, H. Wang, X. Jiang, K. Zhuo, Y. Liu, X. Yang, Z. Gu, S. Sang, and Y. Shu, “In Situ Fabrication of Organic Electrochemical Transistors on a Microfluidic Chip<\/a>“, Nano Research<\/i>\u00a012.8 (2019): 1943-1951.<\/li>\n
                8. Zhang, B., H. Kim, H. Wu, Y. Gao, and X. Jiang,\u00a0 “Sonothrombolysis with Magnetic Microbubbles Under a Rotational Magnetic Field<\/a>“, Ultrasonics<\/i>\u00a098 (2019): 62-71.<\/li>\n
                9. Jiang, X., and J. B. Spicer, “Nanoacoustics Comes Quietly [Guest Editorial]<\/a>“, IEEE Nanotechnology Magazine<\/i>\u00a013.3 (2019): 4-4.<\/li>\n
                10. Zhang, F., P. Lv, Y. Zhang, S. Huang, C.-M. Wong, H.-M. Yau, X. Chen, Z. Wen, X. Jiang, C. Zeng, J. Hong, and J. Dai, “Modulating the Electrical Transport in the Two-Dimensional Electron Gas at LaAlO3<\/sub>\/SrTiO3<\/sub> Heterostructures by Interfacial Flexoelectricity<\/a>“, Physical review letters<\/i>\u00a0122.25 (2019): 257601.\u00a0(Editors\u2019 Suggestion)<\/li>\n
                11. Kim, J., H. Kim, W.-Y. Chang, W. Huang, X. Jiang, P. Dayton, “Candle-Soot Carbon Nanoparticles in Photoacoustics: Advantages and challenges for laser ultrasound transmitters<\/a>“, IEEE nanotechnology magazine<\/i>\u00a013.3 (2019): 13-28.<\/li>\n
                12. Li, M., W. Shao, X. Jiang, and Z. Feng, “Deconvolution in Intravascular Ultrasound to Improve Lateral Resolution<\/a>“, Ultrasonic imaging<\/i>\u00a041.4 (2019): 191-205.<\/li>\n
                13. Wan, H., C. Luo, W.-Y. Chang, Y. Yamashita, and X. Jiang, “Effect of Poling Temperature on Piezoelectric and Dielectric Properties of 0.7Pb(Mg1\/3<\/sub>Nb2\/3<\/sub>)O3<\/sub>\u20130.3PbTiO3<\/sub> Single Crystals Under Alternating Current Poling<\/a>“, Applied Physics Letters<\/i>\u00a0114.17 (2019): 172901.\u00a0(Featured Article).<\/li>\n
                14. Li, S., J.Tian, and X.Jiang. “A Micromachined Pb(Mg1\/3<\/sub>Nb2\/3<\/sub>)O3<\/sub>-PbTiO3<\/sub> Single Crystal Composite Circular Array for Intravascular Ultrasound Imaging<\/a>“, Journal of engineering and science in medical diagnostics and therapy<\/i>\u00a02.2 (2019).<\/li>\n
                15. Gao, M., C. Luo., W.-Y. Chang, C. M. Leung,\u00a0 J. Tian, J.Li, X. Jiang and D. Viehland, “Apparent Phase Stability And Domain Distribution of PMN-30PT Single Crystals with Nanograted Au\/MnOx<\/sub> Electrodes<\/a>“, Acta Materialia<\/i>\u00a0169 (2019): 28-35.<\/li>\n<\/ol>\n

                  2018<\/h3>\n
                    \n
                  1. Li, S., J. Kim, Z. Wang, S. Kasoji, B. Lindsey, P. A. Dayton, and X. Jiang, “A Dual-Frequency Colinear Array for Acoustic Angiography in Prostate Cancer Evaluation<\/a>“, IEEE transactions on ultrasonics, ferroelectrics, and frequency control<\/i>\u00a065.12 (2018): 2418-2428.<\/li>\n
                  2. Jiang, X., and Al-Jumaily, A. M. “Ultrasound Transducers for Biomedical Imaging and Therapy<\/a>“, Journal of Engineering and Science in Medical Diagnostics and Therapy<\/i>\u00a01.4 (2018).<\/li>\n
                  3. Zhang, S., F. Li, F. Yu, X. Jiang, H.-Y. Lee, J. Luo, and T. R. Shrout, “Recent Developments in Piezoelectric Crystals<\/a>“, Journal of the Korean Ceramic Society<\/i>\u00a055.5 (2018): 419-439.<\/li>\n
                  4. Yuan, Z., S. Sang, E. Sun, X. Qi, W.-Y. Chang, R. Zhang, B. Yang, X. Jiang, and W. Cao, “Domain Engineering and Full Matrix Material Constants of [111]c<\/sub>-poled 0.63Pb (Mg1\/3<\/sub>Nb2\/3<\/sub>)-0.37 PbTiO3<\/sub> Single Crystal<\/a>“, CrystEngComm<\/i>\u00a020.33 (2018): 4745-4751.<\/li>\n
                  5. Chang, W.-Y., C.-C. Chung, C. Luo, T. Kim, Y. Yamashita, J. L. Jones, and X. Jiang, “Dielectric and Piezoelectric Properties of 0.7 Pb(Mg1\/3<\/sub>Nb2\/3<\/sub>)O3<\/sub>-0.3 PbTiO3<\/sub> Single Crystal Poled Using Alternating Current<\/a>“, Materials Research Letters<\/i>\u00a06.10 (2018): 537-544.<\/li>\n
                  6. Huang, S., H.-M. Yau, H. Yu, L. Qi, F. So, J.-Y. Dai, and X. Jiang, “Flexoelectricity in a Metal\/Erroelectric\/Semiconductor Heterostructure<\/a>“, AIP advances<\/i>\u00a08.6 (2018): 065321.\u00a0(2018 Editor’s Pick).<\/li>\n
                  7. Chang, W.-Y., X. A. Zhang, J. Kim, W. Huang, A. Bagal, C.-H. Chang, T. Fang, H.F. Wu, and X. Jiang, “Evaluation of Photoacoustic Transduction Efficiency of Candle Soot Nanocomposite Transmitters<\/a>“, IEEE Transactions on Nanotechnology<\/i>\u00a017.5 (2018): 985-993.<\/li>\n
                  8. Nguyen, B. H., S. S. Nanthankumar, X. Zhuang, P. Wriggers, X. Jiang, and T. Rabczuky, “Dynamic Flexoelectric Effect on Piezoelectric Nanostructures<\/a>“, European Journal of Mechanics-A\/Solids<\/i>\u00a071 (2018): 404-409.<\/em><\/li>\n
                  9. Kim, Taeyang, J. Kim, and X. Jiang, “AlN Ultrasound Sensor for Photoacoustic Lamb Wave Detection in a High-Temperature Environment<\/a>“, IEEE transactions on ultrasonics, ferroelectrics, and frequency control<\/i>\u00a065.8 (2018): 1444-1451.<\/li>\n
                  10. Huang, S., L. Qi, W. Huang, L. Shu, S. Zhou, and X. Jiang, “Flexoelectricity in Dielectrics: Materials, Structures and Characterizations<\/a>“, Journal of Advanced Dielectrics<\/i>\u00a08.02 (2018): 1830002.<\/li>\n
                  11. Qi, L., S. Huang, G. Fu, A. Li, S. Zhou, and X. Jiang, “Modelling of the Flexoelectric Annular Microplate Based on Strain Gradient Elasticity Theory<\/a>“, Mechanics of Advanced Materials and Structures<\/i>\u00a026.23 (2019): 1958-1968.<\/li>\n
                  12. Qi, L., S. Huang, G. Fu, S. Zhou, and X. Jiang, “On the Mechanics of Curve Flexoelectric Microbeams<\/a>“, International Journal of Engineering Science<\/i>\u00a0124 (2018): 1-15.<\/li>\n
                  13. \n
                    \n
                    \n
                    \n

                    Chang, W.-Y., C.-C. Chung, Z. Yuan, C.-H. Chang, J. Tian, D. Viehland, J.-F. Li, J. L. Jones, and X. Jiang, “Patterned Nano-Domains in PMN-PT Single Crystals<\/a>“, Acta Materialia<\/i>\u00a0143 (2018): 166-173.<\/p>\n<\/div>\n<\/div>\n<\/div>\n<\/li>\n

                  14. Wang, Z., K. H. Martin, P. A. Dayton, and X. Jiang, “Real-time Ultrasound Angiography Using Superharmonic Dual-Frequency (2.25 MHz \/ 30 MHz) Cylindrical Array: In Vitro Study<\/a>“, Ultrasonics<\/i>\u00a082 (2018): 298-303.<\/li>\n<\/ol>\n

                    2017\u00a0<\/span><\/h3>\n
                      \n
                    1. Joshi, A.A., S. Li, S. Kasoji, X. Jiang, P. Dayton, and M.M. Muller, “Quantitative analysis of the angiogenic microvasculature in tumor using multiple scattering and dual-frequency transducers<\/a>“, The Journal of the Acoustical Society of America<\/i>\u00a0142.4 (2017): 2563-2563.<\/li>\n
                    2. Kim, T., J. Kim, and X. Jiang, “Transit time difference flowmeter for Intravenous flow rate measurement using 1-3 piezoelectric composite transducers<\/a>“, IEEE Sensors Journal<\/i>\u00a017.17 (2017): 5741-5748.<\/li>\n
                    3. Kim, J., B. D. Lindsey, W.-Y. Chang, X. Dai, J. M. Stavas, P. Dayton, and X. Jiang, “Intravascular forward-looking ultrasound transducers for microbubble-mediated sonothrombolysis<\/a>“, Scientific reports<\/i>\u00a07.1 (2017): 1-10.<\/li>\n
                    4. Huang, S., T.\u00a0Kim, D. Hou, D. Cann, J. L. Jones, and X. Jiang, “Flexoelectric characterization of BaTiO3<\/sub>-0.08Bi(Zn1\/2<\/sub>Ti1\/2<\/sub>)O3<\/sub><\/a>“, Applied Physics Letters<\/i>\u00a0110.22 (2017): 222904.<\/li>\n
                    5. Lindsey, B. D., J. Kim, P. Dayton, and X. Jiang, “Dual-frequency piezoelectric endoscopic transducer for imaging vascular invasion in pancreatic cancer<\/a>“, IEEE transactions on ultrasonics, ferroelectrics, and frequency control<\/i>\u00a064.7 (2017): 1078-1086.<\/li>\n
                    6. Shu, L., M. Wan, X. Jiang, F. Li, N. Zhou, W. Huang, and T. Wang, “Frequency dispersion of flexoelectricity in PMN-PT single crystal<\/a>“, AIP Advances<\/i>\u00a07.1 (2017): 015010.<\/li>\n
                    7. Berik, P., W.-Y. Chang and X. Jiang, “Piezoelectric d36 in-plane shear-mode of lead-free BZT-BCT single crystals for torsion actuation<\/a>“, Applied Physics Letters<\/i>\u00a0110.5 (2017): 052902.<\/li>\n
                    8. Suo, D., Z. Jin, X. Jiang, P. Dayton, and Y. Jing, “Microbubble mediated dual-frequency high intensity focused ultrasound thrombolysis: an In vitro study<\/a>“, Applied Physics Letters<\/i>\u00a0110.2 (2017): 023703.<\/li>\n
                    9. Sang, S., Z. Yuan, L. Zheng, E. Sun, X. Qi, R. Zhang,\u00a0X.<\/span>\u00a0Jiang<\/span>, S. Li, and J. Du, “Raman spectra of (K, Na)(Nb, Ta)O3<\/sub>\u00a0single crystal<\/a>“, Journal of Alloys and Compounds<\/i>\u00a0704 (2017): 804-808.<\/li>\n
                    10. Wang, Z., K. Martin, W. Huang, P. Dayton and X. Jiang, “Contrast enhanced superharmonic imaging for acoustic angiography using reduced form-factor lateral mode transmitters for intravascular and intracavity applications<\/a>“, IEEE transactions on ultrasonics, ferroelectrics, and frequency control<\/i>\u00a064.2 (2016): 311-319.<\/li>\n<\/ol>\n

                      2016<\/h3>\n<\/div>\n
                      \n
                        \n
                      1. Shu, L., T. Wang, X. Jiang, and W. Huang, “Verification of the flexoelectricity in barium strontium titanate through d33<\/sub> meter<\/a>“, AIP Advances<\/i>\u00a06.12 (2016): 125003.<\/li>\n
                      2. Shi, X., W. Huang, F. Li, Z. Li, Z. Xu, X. Jiang, and X. Wei, “Analysis on the anisotropic electromechanical properties of lead magnoniobate titanate single crystal for ring type ultrasonic motors<\/a>“, AIP Advances<\/i>\u00a06.11 (2016): 115017.<\/li>\n
                      3. Shu, L., Z.\u00a0Yong, X.\u00a0Jiang, Z. Xie and W.\u00a0Huang, “Flexoelectricity in low densification materials and its implication<\/a>“, Journal of Alloys and Compounds<\/i>\u00a0695 (2017): 1555-1560.<\/li>\n
                      4. Kim, T.,\u00a0A. Saini, J. Kim, A. Gopalarathnam, Y. Zhu, F. L. Palmieri, C. J. Wohl, and X. Jiang, \u201cPiezoelectric Floating Element Shear Stress Sensor for the Wind Tunnel Flow Measurement<\/a>\u201d, IEEE Transactions on Industrial Electronics<\/i>\u00a064.9 (2016): 7304-7312.<\/li>\n
                      5. Lindsey, B. D., K. Martin, X. Jiang, and P. Dayton, “Adaptive windowing in contrast-enhanced intravascular ultrasound imaging<\/a>“, Ultrasonics<\/i>\u00a070 (2016): 123-135.<\/li>\n
                      6. Kim, T., W. Huang, S. Huang, and X. Jiang, “Thermal Gradient Induced Flexoelectric Effects in Bulk Ba0.67<\/sub>Sr0.33<\/sub>TiO3<\/sub><\/a>“, Applied Physics Letters<\/i>\u00a0108.19 (2016): 192902.<\/li>\n
                      7. Martin, K. H., B. D. Lindsey, J. Ma, T. C. Nichols, X. Jiang, and P. A. Dayton, “Ex-vivo porcine arterial and chorioallantoic membrane acoustic angiography using dual frequency intravascular ultrasound probes<\/a>“, Ultrasound in medicine & biology<\/i>\u00a042.9 (2016): 2294-2307.<\/li>\n
                      8. Huang, W., W.-Y. Chang, J. Kim, S. Li, S. Huang, and X. Jiang, “A novel laser ultrasound transducer using candle soot carbon nanoparticles<\/a>“, IEEE Transactions on Nanotechnology<\/i>\u00a015.3 (2016): 395-401.<\/li>\n
                      9. Kwon, S.R., W. Huang, S. Zhang, F.-G. Yuan and X. Jiang, “Study on a flexoelectric microphone using barium strontium titanate<\/a>“, Journal of Micromechanics and Microengineering<\/i>\u00a026.4 (2016): 045001.<\/li>\n
                      10. Huang, W., J. Kim, K. Kim, S. Bakshi, J. Williams, P. Matthieu, E. Loboa, K. K. Shung, Q. Zhou and X. Jiang, “A novel ultrasound technique for non-invasive assessment of cell differentiation<\/a>“, IEEE Sensors Journal<\/i>\u00a016.1 (2015): 61-68.<\/li>\n
                      11. Wang, Z., S. Li, T. Czernuszewicz, C. Gallippe, C. Liu, X. Geng\u00a0and\u00a0X. Jiang, “Design, fabrication and characterization of a bi-frequency co-linear array<\/a>“, IEEE transactions on ultrasonics, ferroelectrics, and frequency control<\/i>\u00a063.2 (2015): 266-274.<\/li>\n<\/ol>\n<\/div>\n
                        \n

                        2015<\/h3>\n<\/div>\n
                        \n
                        \n
                          \n
                        1. Li, Y., J. Ma, K. H. Martin, M. Yu, T. Ma, P. A. Dayton, X. Jiang, K. Shung, and Q. Zhou, \u201cAn integrated system for super-harmonic contrast-enhanced ultrasound imaging: design and intravascular phantom imaging study<\/a>\u201d, IIEEE Transactions on Biomedical Engineering<\/i>\u00a063.9 (2015): 1933-1943.<\/em><\/li>\n
                        2. Chang, W.-Y., W. Huang, J. Kim, S. Li\u00a0and\u00a0X. Jiang, “Candle soot nanoparticles-PDMS composites for laser ultrasound transducers<\/a>“, Applied Physics Letters<\/i>\u00a0107.16 (2015): 161903.<\/li>\n
                        3. Di, J.*, J. Kim*, Q. Hu, X. Jiang\u00a0and\u00a0Z. Gu, “Spatiotemporal drug delivery using laser-generated-focused ultrasound system<\/a>“, Journal of Controlled Release<\/i>\u00a0220 (2015): 592-599.\u00a0(*Equivalent contribution)<\/li>\n
                        4. Kim, T., J. Kim, R. Dalmau, R. Schlesser, E. Preble and X. Jiang, “High temperature electromechanical characterization of AlN single crystals<\/a>“, IEEE transactions on Ultrasonics, Ferroelectrics, and Frequency control<\/i>\u00a062.10 (2015): 1880-1887.<\/li>\n
                        5. Suo, D., S. Guo, W. Lin, X. Jiang\u00a0and\u00a0J. Jing, “Thrombolysis using multi-frequency high intensity focused ultrasound at MHz range: an in vitro<\/em> study<\/a>“, Physics in Medicine & Biology<\/i>\u00a060.18 (2015): 7403.<\/li>\n
                        6. Kim, J., S. Li, S. Kasoji, P. Dayton and X. Jiang, “Phantom evaluation of stacked-type dual-frequency 1-3 composite transducers: a feasibility study on intracavitary acoustic angiography<\/a>“, Ultrasonics<\/i>\u00a063 (2015): 7-15.<\/li>\n
                        7. Ma, J., M. Steer and X. Jiang, “An acoustic filter based on layered structure<\/a>“, Applied physics letters<\/i>\u00a0106.11 (2015): 111903.<\/li>\n
                        8. Ma, J., K. Martin, Y. Li, P. Dayton, K. Shung, Q. Zhou\u00a0and\u00a0X. Jiang, “Design factors of intravascular dual frequency transducers for super-harmonic contrast imaging and acoustic angiography<\/a>“, Physics in Medicine & Biology<\/i>\u00a060.9 (2015): 3441.<\/em><\/li>\n
                        9. Hsieh, B.-Y., J. Kim, J. Zhu, S. Li, X. Zhang\u00a0and\u00a0X. Jiang, “A laser ultrasound transducer using carbon nanofibers-polydimethylsiloxane composite thin film<\/a>“, Applied Physics Letters<\/i>\u00a0106.2 (2015): 021902.<\/em><\/li>\n<\/ol>\n<\/div>\n<\/div>\n
                          \n

                          2014<\/h3>\n<\/div>\n
                          \n
                          \n
                            \n
                          1. Huang, W., S.-R. Kwon, S. Zhang, F.-G. Yuan\u00a0and\u00a0X. Jiang, “A trapezoid shape flexoelectric accelerometer<\/a>“, Journal of Intelligent Material Systems and Structures<\/em>, 25, 3, 271-277 (2014).<\/li>\n
                          2. Huang, W., L. Shu, S. R. Kwon, F. G. Yuan\u00a0and\u00a0X. Jiang, “Fabrication and measurement of a flexoelectric micro-pyramid composite<\/a>“, AIP Advances<\/em>, 4, 12, 127115 (2014).<\/li>\n
                          3. Martin, K. H., B.D. Lindsey, J. Ma, M. Lee, S. Li, F.S. Foster, X. Jiang\u00a0and\u00a0P.A. Dayton, “Dual-frequency transducers for contrast enhanced ultrasound imaging<\/a>“, Sensors<\/em>, 14, 11, 20825-20842 (2014).<\/li>\n
                          4. Zhang, S., F. Li, X. Jiang, J. Kim, J. Luo, and X. Geng, “Advantages and challenges of relaxor-PbTiO3<\/sub> ferroelectric crystals for electroacoustic transducers- a review<\/a>“, Progress in Materials Science<\/em>, 68, 1-66 (2014).<\/li>\n
                          5. Li, Y.*, L. Shu*, W. Huang, X. Jiang\u00a0and\u00a0H. Wang, “Giant flexoelectricity in Ba0.6<\/sub>Sr0.4<\/sub>TiO3<\/sub>\/Ni0.8<\/sub>Zn0.2<\/sub>Fe2<\/sub>O4<\/sub> composite<\/a>“, Applied Physics Letters<\/em>, 105, 14, 162906 (2014). (*Equivalent contribution)<\/li>\n
                          6. Kwon, S.R., W. Huang, L. Shu, F.G. Yuan, J.P. Maria\u00a0and\u00a0X. Jiang, “Flexoelectricity in barium strontium titanate thin film<\/a>“, Applied Physics Letters<\/em>, 105, 14, 142904 (2014).<\/li>\n
                          7. Shu, L., F. Li, W. Huang, X. Wei, X. Yao\u00a0and\u00a0X. Jiang, “Relationship between direct and converse flexoelectric coefficients<\/a>“, Journal of Applied Physics<\/em>, 116, 14, 144105 (2014).<\/li>\n
                          8. Cui, Z., F. Robles Poblete, G. Cheng, S. Yao, X. Jiang, and\u00a0Y. Zhu, “Design and operation of silver nanowire based flexible and stretchable touch sensors<\/a>“, Journal of Materials Research<\/em>, 30, 1, 79-85 (2014).<\/li>\n
                          9. Jiang, X., J. Kim\u00a0and\u00a0K. Kim, “Relaxor-PT single crystal piezoelectric sensors<\/a>“, Crystals<\/em>, 4, 3, 351-376 (2014).<\/li>\n
                          10. Jian, X., S. Li, W. Huang, Y. Cui\u00a0and\u00a0X. Jiang, “Electromechanical response of micromachined 1-3 piezoelectric composites: Effect of etched piezo-pillar slope<\/a>“, Journal of Intelligent Material Systems and Structures<\/em>\u00a0(2014).<\/li>\n
                          11. W. Huang, S. Yang, N. Zhang, F.-G. Yuan and X. Jiang, “Direct measurement of opening mode stress intensity factors using flexoelectric strain gradient sensors<\/a>“, Experimental Mechanics<\/em>, 55, 2, 313-320 (2014).<\/li>\n
                          12. Shu, L., \u00a0W. Huang, S. Kwon, Z.\u00a0 Wang, F. Li, X. \u00a0Wei, S. Zhang, M. \u00a0Lanagan, X. Yao\u00a0and\u00a0X. \u00a0Jiang, “Converse flexoelectric coefficient f1212<\/sub> in bulk Ba0.67<\/sub>Sr0.33<\/sub>TiO3<\/sub><\/a>“, Applied Physics Letters<\/em>, 104, 23, 232902 (2014).<\/li>\n
                          13. Wang, M., W. Yuan, X. Jiang, Y. Jing\u00a0and\u00a0Z. Wang, “Disruption of microalgal cells using high-frequency focused ultrasound<\/a>“, Bioresource Technology,<\/em> 153, 315-321 (2014).<\/li>\n
                          14. Johnson, J., K. Kim, S. Zhang, D. Wu\u00a0and\u00a0X. Jiang, “High-temperature acoustic emission sensing tests using a yttrium calcium oxyborate sensor<\/a>“, Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on<\/em>, 61, 5, 805-14\u00a0(2014).<\/li>\n
                          15. Ma, J., K. Martin, P. Dayton\u00a0and\u00a0X. Jiang, “A preliminary engineering design of intravascular dual-frequency transducers for contrast enhanced acoustic angiography and molecular imaging<\/a>“,Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on, 61, 5, 870-80 (2014).<\/li>\n
                          16. Jiang, X., K. Kim, S. Zhang, J. Johnson\u00a0and\u00a0G. Salazar, “High-Temperature piezoelectric sensing<\/a>“, Sensors, 14, 1, 144-69 (2014).<\/li>\n<\/ol>\n<\/div>\n<\/div>\n
                            \n

                            2013<\/h3>\n<\/div>\n
                            \n
                              \n
                            1. Di, J., \u00a0J. Price, X. Gu, X. Jiang, Y. Jing, and Z. Gu, \u201cUltrasound-triggered regulation of blood glucose levels using injectable nano-network<\/a>\u201d, Advanced Healthcare Materials<\/em>, 3, 6, 811 (2013).<\/li>\n
                            2. Jiang, X., W. Huang, S. Zhang, “Flexoelectric nano-generator: Materials, structures and devices<\/a>“, Nano Energy<\/em>, 2, 6, 1079-92 (2013).<\/li>\n
                            3. Kwon, S.R, W. Huang, F.-G. Yuan\u00a0and\u00a0X.N. Jiang, “Flexoelectric sensing using a multilayered barium strontium titanate structure<\/a>“, Smart Materials and Structures<\/em>, 22, 11, 115017 (2013).<\/li>\n
                            4. Chang, W.-Y., W. Huang, A. Bagal, C.-H. Chang, J. Tian, P. Han\u00a0and\u00a0X. Jiang, “Study on dielectric and piezoelectric properties of 0.7Pb(Mg1\/3<\/sub>Nb2\/3<\/sub>)O3<\/sub>-0.3PbTiO3<\/sub> single crystal with nano-patterned composite electrode<\/a>“, Journal of Applied Physics<\/em>, 114, 11, 114103 (2013).<\/li>\n
                            5. Zhu, Y., J.B. Tracy, J. Dong, X. Jiang, M.G. Jones\u00a0and\u00a0G. Childers, “Teaching a multidisciplinary nanotechnology laboratory course to undergraduate students<\/a>“, Journal of Nano Education<\/em>, 5,\u00a01, 17-26 (2013).<\/li>\n
                            6. Yan, X., W. Huang, S.R. Kwon, S. Yang, X. Jiang\u00a0and\u00a0F.-G. Yuan, “A sensor for the direct measurement of curvature based on flexoelectricity<\/a>“, Smart Materials and Structures<\/em>, 22, 8, \u00a0085016 (2013).<\/li>\n
                            7. Ma, J., S. Guo, D. Wu, X. Geng\u00a0and\u00a0X. Jiang, “Design, fabrication, and characterization of a single-aperture 1.5-MHz\/3-MHz dual-frequency HIFU transducer<\/a>“, Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on<\/em>, 60, 7, 1519-1529 (2013).<\/li>\n
                            8. Guo, S., Y. Jing and \u00a0X. Jiang, “Temperature rise in tissue ablation using multi-frequency ultrasound<\/a>“, Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on<\/em>, 60, 8, 1699-1707 (2013).<\/li>\n
                            9. Xu, T.B., E.J. Siochi, J.H. Kang, L. Zuo, W. Zhou, X. Tang\u00a0and\u00a0X. Jiang, “Energy harvesting using a PZT ceramic multilayer stack<\/a>“, Smart Materials and Structures<\/em>, 22, 6, 065015 (2013).<\/li>\n
                            10. Xu, T.B., L. Tolliver, X. Jiang, and J. Su, “A single crystal lead magnesium niobate-lead titanate multilayer-stacked cryogenic flextensional actuator<\/a>“, Applied Physics Letters<\/em>, 102, 4, 042906 (2013).<\/li>\n
                            11. Tolliver, L., T.-B. Xu and X. Jiang, “Finite element analysis of the piezoelectric stacked-HYBATS transducer<\/a>“, Smart Materials and Structures<\/em>, 22, 3, 035015 (2013).<\/li>\n<\/ol>\n<\/div>\n
                              \n

                              2012<\/h3>\n<\/div>\n
                              \n
                              \n
                                \n
                              1. Huang, W., X. Yan, S.R. Kwon, S. Zhang, F.G. Yuan\u00a0and\u00a0X. Jiang, “Flexoelectric strain gradient detection using Ba0.64<\/sub>Sr0.36<\/sub>TiO3<\/sub> (BST) for sensing<\/a>“, Applied Physics Letters<\/em>, 101, 25, 252903 (2012).<\/li>\n
                              2. Kim, K., S. Zhang\u00a0and\u00a0X. Jiang, “Surface acoustic load sensing using a face-shear PIN-PMN-PT single crystal resonator<\/a>“, Ultrasonics, Ferroelectrics and Frequency Control, IEEE Transactions on<\/em>, 59, 11, 2548-54 (2012).<\/li>\n
                              3. Guo, S., Y. Wang, N. Allbritton\u00a0and\u00a0X. Jiang, “Ultrasound-induced release of micropallets with cells<\/a>“, Applied Physics Letters<\/em>, 101, 16, 163703 (2012).<\/li>\n
                              4. Kim, K., S. Zhang\u00a0and\u00a0X. Jiang, “Surface load induced electrical impedance shift in relaxor-PbTiO3 crystal piezoelectric resonators<\/a>“, Applied Physics Letters<\/em>, 100, 25, 253501 (2012).<\/li>\n
                              5. Kim, K., S. Zhang, G. Salazar\u00a0and\u00a0X.N. Jiang, \u201cDesign, fabrication and characterization of high temperature piezoelectric vibration sensor using YCOB crystals<\/a>\u201d, Sensors and Actuators: A Physical, <\/em>178, 40\u201348 (2012).<\/li>\n<\/ol>\n<\/div>\n<\/div>\n
                                \n

                                2011<\/h3>\n<\/div>\n
                                \n
                                \n
                                  \n
                                1. Huang, W.B., K. Kim, S.J. Zhang, F.G. Yuan\u00a0and\u00a0X.N. Jiang, “Scaling effect of flexoelectric (Ba,Sr)TiO3<\/sub>microcantilevers<\/a>“, Physica Status Solidi-Rapid Research Letters<\/em>, 5, 9, 350-352 (2011).<\/li>\n
                                2. Thein, M., A. Cheng, P. Khanna, C. Zhang, E.-J. Park, D. Ahmed, C.J. Goodrich, F. Asphahani, F. Wu\u00a0and\u00a0N.B. Smith, “Site-specific sonoporation of human melanoma cells at the cellular level using high lateral-resolution ultrasonic micro-transducer arrays<\/a>“, Biosensors and Bioelectronics<\/em>, 27, 1, 25-33 (2011).<\/li>\n
                                3. Kim, K., S. Zhang, W. Huang, F. Yu\u00a0and\u00a0X. Jiang, “YCa4<\/sub>O(BO3<\/sub>)3<\/sub> (YCOB) high temperature vibration sensor<\/a>“, Journal of Applied Physics<\/em>, 109, 12, 126103 (2011).<\/li>\n
                                4. Xu, T., X.N. Jiang, and J. Su, \u201cA piezoelectric multilayer-stacked hybrid actuation\/transduction system<\/a>\u201d, Applied Physics Letters<\/em>, 98, 24, 243503\u00a0(2011).<\/li>\n
                                5. Ma, T.-F., C. Zhang, X.-N. Jiang\u00a0and\u00a0G.-P. Feng, “Thickness shear mode quartz crystal resonators with optimized elliptical electrodes<\/a>“, Chinese Physics B<\/em>, 20, 4, 047701 (2011).<\/li>\n<\/ol>\n<\/div>\n<\/div>\n
                                  \n

                                  2010<\/h3>\n<\/div>\n
                                  \n
                                  \n
                                    \n
                                  1. Ma, T.-F., C. Zhang, G.-P. Feng\u00a0and\u00a0X.-N. Jiang, “Lateral field excitation properties of langasite single crystal<\/a>“, Chinese Physics B<\/em>, 19, 8, 087701 (2010).<\/li>\n
                                  2. Zhang, S., X. Jiang, M. Lapsley, P. Moses\u00a0and\u00a0T.R. Shrout, “Piezoelectric accelerometers for ultrahigh temperature application<\/a>“, Applied Physics Letters<\/em>, 96, 1, 013506 (2010).<\/li>\n<\/ol>\n<\/div>\n<\/div>\n
                                    \n

                                    1993-2009<\/h3>\n<\/div>\n
                                    \n
                                    \n
                                      \n
                                    1. Shcheglov, K., X.N. Jiang, R.\u00a0Toda, and EH Yang, \u201cHybrid linear microactuators and their control models for mirror shape correction<\/a>\u201d, Journal of Micro and Nano-Mechatronics<\/em>, 4, 4,159\u2013167(2008).<\/li>\n
                                    2. Dong, S., L. Yan, D. Viehland, X.N. Jiang, and W. Hackenberger, \u201cA Piezoelectric single crystal traveling wave step motor for low-temperature applications<\/a>\u201d, Applied Physics Letters<\/em>, 92, 15, 153504 (2008).<\/li>\n
                                    3. Zhang, S., Y. Fei, B. Chai, E. Frantz, D. Snyder, X.N. Jiang, and T. Shrout, “Characterization of piezoelectric single crystal YCa4<\/sub>O(BO3<\/sub>)3<\/sub> for high temperature applications<\/a>“, Applied Physics Letters<\/em>, 92, 20, 202905 (2008).<\/li>\n
                                    4. Woody, S. C., S. T. Smith, X. N. Jiang, and P.W. Rehrig, “Performance of single-crystal Pb(Mg1\/3<\/sub>Nb2\/3<\/sub>)-32%PbTiO3<\/sub> stacked actuators with application to adaptive structures<\/a>“, Review of Scientific Instruments<\/em> 76, 7, 075112 (2005).<\/li>\n
                                    5. Zhan, C., J. Wu, S. Yin, and X.N. Jiang, “Strong, high-Frequency, AC electric-field-induced rhombohedra-tetragonal phase transition in Pb(Mg1\/3<\/sub>Nb2\/3<\/sub>)-32%PbTiO3<\/sub> single crystal<\/a>“, Journal of Applied Physics<\/em> 97, 7, 074107 (2005).<\/li>\n
                                    6. Dong, S., L. Yan, N. Wang, D. Viehland, X.N. Jiang, P. Rehrig, and W.Hackenberger, “A small, linear, piezoelectric ultrasonic cryomotor<\/a>“, Applied Physics Letter<\/em> 86, 5, 053501 (2005).<\/li>\n
                                    7. Jiang, X.N., C. Sun, X. Zhang, B. Xu, and Y.H. Ye, \u201cMicro-stereolithography of lead zirconate titanate (PZT) thick films on silicon\u00a0 substrate<\/a>\u201d, Sensors and Actuators: A. Physical<\/em>, 87, 1, 72-77 (2000).<\/li>\n
                                    8. Zhang, X., X. N. Jiang. And C. Sun, \u201cPolymeric and Ceramic Microstereolithography for MEMS\u201d,\u00a0Sensors and Actuators: A. Physical<\/em>, 77, 2, 149-156 (1999).<\/li>\n
                                    9. Jiang, X. N., Z. Y. Zhou, X. Y. Huang, Y. Li, Y. Yang, and C.Y. Liu, \u201cMicro-nozzle\/diffuser flow and its application in micro valveless pumps<\/a>\u201d, Sensors and Actuators: A. Physical<\/em>, 70, 1, 81-87 (1998).<\/li>\n
                                    10. Zhou, Z.Y., X.Y. Ye, Y. Li, Z. You, T.H. Cui, Y. Yang, X.N. Jiang, M. Hu, S.S. Xiong, W.D. Zhang, H.N. Cai, J. Zou, L. Zhang, X. H. Wang and X.Q. Lu \u201cResearch on microfluid handling systems\u201d, Journal of the Institution of Engineers Singapore<\/em>, 38, 4, 7-14 (1998).<\/li>\n
                                    11. Zhou, Z. Y., Y. Yang, X. Y. Ye, Y. Li, and X. N. Jiang, \u201cMicro system and micro manufacturing Technology\u201d,\u00a0 J. Micro\/Nano Science and Technology<\/em>, 2, 1, 1-11 (1996). (in Chinese)<\/li>\n
                                    12. Jiang, X. N., Z. Y. Zhou, Y. Li, and X. Y. Ye, \u201cA novel silicon based micropump\u201d, Chinese J. of Scientific Instrument<\/em>, 17, 1, 322-326 (1996). (in Chinese)<\/li>\n
                                    13. Jiang, X. N., Z. Y. Zhou, Y. Li, X. Y. Ye, and Y. Yang, \u201cStudy on microfluid\u00a0 flow behavior\u201d, J. of Optics and Precision Engineering<\/em>, \u00a03, 3, 51-55 (1995). (in Chinese)<\/li>\n
                                    14. Jiang, X. N., Z. Y. Zhou, Y. Li, and D. L. Shen, \u201cMicrofluid measuring system and its application in the microfluid flow behavior research\u201d, Chinese J. of Scientific Instrument<\/em>, 16,\u00a01, 346-351 (1995b). (in Chinese)<\/li>\n
                                    15. Li, Y., X. N. Jiang, Z.Y. Zhou, and X. Y. Ye, \u201cProperty\u00a0of fluid flow in micro-channel\u201d, J.\u00a0 China Mechanical\u00a0 Engineering<\/em>, 5, 3, 23-25 (1994). (in Chinese)<\/li>\n
                                    16. Jiang\u00a0 X. N., Y. Li, Z. Y. Zhou, and X. Y. Ye, \u201cMicro-actuation technology\u201d, J. of China\u00a0 Instrumentation<\/em>, 2, 10-14 (1993). (in Chinese)<\/li>\n
                                    17. Zhou, Z. Y., X. N. Jiang, Y. Li, and X. Y. Ye, \u201cThe development of micromachine\u201d, J. of China\u00a0 Instrumentation<\/em>, 1, 14-17 (1993). (in Chinese)<\/li>\n<\/ol>\n<\/div>\n<\/div>\n
                                      \n
                                      \n

                                      <\/a>Conference Papers<\/h3>\n<\/div>\n<\/div>\n
                                      \n
                                      \n
                                        \n
                                      1. J. A. Johnson, K. Kim, S. Zhang, and X. Jiang, “Crack propagation testing using a YCOB acoustic emission sensor,<\/a>”\u00a0in SPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring<\/em>, 2014.<\/li>\n
                                      2. W. Huang, S. Yang, N. Zhang, F.-G. Yuan, and X. Jiang, “Cracks monitoring and characterization using Ba0. 64Sr0. 36TiO3 flexoelectric strain gradient sensors<\/a>,” in SPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring<\/em>, 2014<\/li>\n
                                      3. S. ryung Kwon, W. Huang, S. Zhang, F.-G. Yuan, and X. Jiang, “A new type of microphone using flexoelectric barium strontium titnate<\/a>,” in SPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring<\/em>, 2014<\/li>\n
                                      4. J. A. Johnson, K. Kim, S. Zhang, D. Wu, and X. Jiang, “High-temperature (> 1000\u00b0 C) acoustic emission sensor<\/a>,” in SPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring<\/em>, 2013<\/li>\n
                                      5. K. Kim and X. Jiang, “Tissue characterization using an acoustic wave tactile sensor array<\/a>,” inSPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring<\/em>, 2013<\/li>\n
                                      6. J. Ma, Z. Wang, and X. Jiang, “Design, fabrication, and test of a small aperture, dual frequency ultrasound transducer<\/a>,” in SPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring<\/em>, 2013<\/li>\n
                                      7. K. Kim and X. Jiang, “Acoustic wave microsensor array for tactile sensing<\/a>,” in ASME 2013 International Mechanical Engineering Congress and Exposition<\/em>, 2013<\/li>\n
                                      8. L. Tolliver, X. Jiang, and T.-B. Xu, “Piezoelectric actuators with active and passive frames<\/a>,” inASME 2013 Conference on Smart Materials, Adaptive Structures and Intelligent Systems<\/em>, 2013<\/li>\n
                                      9. Huang, W., S. Kwon, S. Zhang, F. G. Yuan and X.N. Jiang, \u201cA flexoelectric micro-accelerometer<\/a>\u201d,ASME IMECE<\/em>2012-89814, Houston, TX, Nov. 2012.<\/li>\n
                                      10. Kim, K., S. Zhang, and X.N. Jiang, \u201cFace-shear mode ultrasonic tactile sensor array<\/a>\u201d,\u00a0<\/strong>IEEE Ultrasonic Symposiums<\/em>, Dresden, Germany, October 2012.<\/li>\n
                                      11. Salazar, G., K. Kim, X.N. Jiang, and S. Zhang, \u201cPiezoelectric accelerometer for high temperature (1300\u00b0C) sensing<\/a>\u201d, Proc. SPIE<\/em> 8347, 83471K (2012).<\/li>\n
                                      12. Huang, W., K. Kim, S. Zhang, F. Yuan and X.N. Jiang, \u201cFlexoelectric strain gradient sensing using microcantilevers\u201d, International Symposium on Innovation & Sustainability of Structures in Civil Engineering<\/em>, Xiamen University, China, Oct. 28-30 2011.<\/li>\n
                                      13. Huang, W., X.N. Jiang,\u00a0 and F.G. Yuan, \u201cFlexoelectric materials and structures for M\/NEMS<\/a>\u201d,ASME<\/em> IMECE2011-64520, Denver, Nov. 2011.<\/li>\n
                                      14. Bakshi, S., S. Guo, and X.N. Jiang, \u201cMulti-frequency focused ultrasound for tissue ablation<\/a>\u201d,ASME<\/em> IMECE2011-64076, Denver, Nov. 2011.<\/li>\n
                                      15. Xu, T., E. J. Siochi, J. H. Kang, L. Zuo, W. Zhou, X. Tang, and X.N. Jiang, \u201cA piezoelectric PZT ceramic multilayer stack for energy harvesting under dynamic forces<\/a>,\u201d ASME DETC2011-47720 (2011).<\/li>\n
                                      16. Guo, S., X.N. Jiang, and W. Lin, \u201cTissue ablation using multi-frequency focused ultrasound<\/a>\u201d, IEEE Ultrasonic Symposiums<\/em>, Orlando, October, 2011.<\/li>\n
                                      17. Bakshi, S. , J. Williams, X.N. Jiang, and E. Loboa, \u201cCell characterization using high frequency ultrasound<\/a>\u201d, IEEE Ultrasonic Symposiums<\/em>, Orlando, October, 2011.<\/li>\n
                                      18. Kim, K., X.N. Jiang, and S. Zhang, \u201cA high temperature piezoelectric sensor for structure health monitoring<\/a>\u201d, Proc. SPIE Smart Materials and Structures and NDE<\/em>, 7983, 79832V (2011).<\/li>\n
                                      19. Chen, C., J. Liu, Y. Luo, X. Han, J. Liao, X.N. Jiang, and F.G. Yuan, \u201cFabrication of 1-3 piezo-composites using new micro PZT fibers<\/a>\u201d, Proc. SPIE Smart Materials and Structures and NDE<\/em>, 7983, 79833M (2011).<\/li>\n
                                      20. Zheng, F., C. Hu, L. Zhang, K. Snook, Y. Liang, S. Hackenberger, R. Liu, X. Geng, X.N. Jiang and K. Shung, \u201cDevelopment of a c-scan phased array ultrasonic imaging system using a 64-element 35MHz transducer<\/a>\u201d, \u00a0Proc. SPIE Smart Materials and Structures and NDE<\/em>, 7983, 79833E (2011).<\/li>\n
                                      21. Hu, C., F. Zheng, P. Sun, L. Zhang, XN. Jiang, K. Snook, W. Hackenberger, R. Liu, X. Geng, and K. Shung, \u201cDevelopment of a digital 35 MHz, 64-channel phased ultrasound array imaging system for NDT applications<\/a>\u201d, Proc. IEEE Ultrasonics Symposium,<\/em> pp.1829-1832 (2010).<\/em><\/li>\n
                                      22. Lapsley, M.I., E.F. Alberta, R. Sahul, W.S. Hackenberger, X.N. Jiang, S. Zhang, and T.R. Shrout, “Piezoelectric structural sensor technology for extreme environments<\/a>“, 2010 High Temperature Electronics Conference (HiTEC)<\/em>, Albuquerque, NM, May 10-14, 2010.<\/li>\n
                                      23. Jiang, X.N., K. Snook, R. Liu , X. Geng, and W. Hackenberger, \u201cFabrication and characterization of high frequency phased arrays for NDE imaging<\/a>\u201d, Proc. SPIE Smart Materials and Structures and NDE<\/em>, 7649-30 (2010).<\/li>\n
                                      24. Jiang, X.N., W. Cook, and W.S. Hackenberger, \u201cCryogenic piezoelectric actuators<\/a>\u201d, Proc. SPIE Optical Engineering + Applications<\/em>, Vol. 7439, 74390Z\u00a0(2009)<\/strong>.<\/li>\n
                                      25. Jiang, X.N., K. Snook, C. Hu, X. Geng, R. Liu, J. Welter, K. Shung, and W. Hackenberger, \u201cA 35 MHz PCMUT phased array for NDE ultrasound<\/a>\u201d, Proc. SPIE Smart Materials and Structures and NDE<\/em>, Vol. 7294(1): 729403-8 (2009).<\/li>\n
                                      26. Jiang, X.N., K. Snook, T. Walker, A. Portune, R. Haber, X. Geng, J. Welter, and W.S. Hackenberger,\u00a0 “Single crystal piezoelectric composite transducers for advanced NDE applications<\/a>\u201d, Proc. SPIE Smart Materials and Structures and NDE, <\/em>Vol. 6934, 6934-12 (2008).<\/li>\n
                                      27. Jiang, X.N., K. Snook, A. Cheng, W.S, Hackenberger, and X. Geng, \u201cMicroamchined PMN-PT single crystal composite transducers: 15 \u2013 75 MHz PCMUT<\/a>\u201d, Proc. IEEE Ultrasonics Symposium<\/em>, pp.164-167 (2008).<\/li>\n
                                      28. Yuan, J., S. Rhee, and X.N. Jiang, \u201c60 MHz PMN-PT based 1-3 composite transducer for IVUS imaging<\/a>\u201d, Proc. IEEE Ultrasonics Symposium<\/em>, pp.682-685 (2008).<\/li>\n
                                      29. Zhang, S., H. J. Lee, X.N. Jiang, J. Luo, G. Gerber, and T. Shrout, \u201cFrequency dependent properties of high permittivity PMNT piezoelectric for ultrasonic transducer applications<\/a>\u201d, Proc. IEEE Ultrasonics Symposium<\/em>, pp.265-268 (2008).<\/li>\n
                                      30. Jiang, X.N., K. Snook, W.S, Hackenberger, A. Cheng, and J. Xu, \u201cPiezoelectric transducers using micromachined bulk piezo substrates<\/a>\u201d, Proc. IEEE Sensors<\/em>, pp.573-576 (2008).<\/li>\n
                                      31. Jiang, X.N., K. Snook, W.S. Hackenberger, and M. Shafer, “4F-5 PC-MUT arrays for ophthalmologic ultrasound<\/a>“, Proc. IEEE Ultrasonics Symposium<\/em>, pp.309-312 (2007).<\/li>\n
                                      32. Snook, K., X. Geng, W.S. Hackenberger, X.N. Jiang, A. Winder, F. Forsberg, “Optimization of single crystal composite arrays for harmonic imaging<\/a>“, Proc. IEEE Ultrasonics Symposium<\/em>, pp.292-295 (2007).<\/li>\n
                                      33. Jiang, X.N., K. Snook, and W.S. Hackenberger, \u201cSingle crystal piezoelectric composites for advanced NDE ultrasound<\/a>\u201d, Proc. SPIE Smart Materials and Structures<\/em>, Vol. 6531, 65310F (2007).<\/li>\n
                                      34. Jiang, X.N., J.R. Yuan, A. Cheng, K. Snook, and W.S. Hackenberger, \u201cMicro\/Nano piezoelectric composites for advanced M\/NEMS<\/a>\u201d, Proc. ASME MicroNanoChina<\/em>, 20070110-13 (2007).<\/li>\n
                                      35. Jiang, X.N., P.W. Rehrig, J. Luo, W.S. Hackenberger, S.J. Zhang, and T. Shrout, \u201cLow-voltage single crystal actuators<\/a>\u201d, Proc. SPIE Smart Materials and Structures<\/em>, Vol. 6170, 61700G (2006).<\/li>\n
                                      36. Jiang, X.N., J.R. Yuan, A. Cheng, G. Lavallee, P.W. Rehrig, K. Snook, S. Kwon, W.S. Hackenberger, J. Catchmark, J. McIntosh, and X. Geng, \u201cMicromachined PMN-PT single crystal for advanced transducers\u201d, Technical Digest of Solid-State Sensors, Actuators, and Microsystems Workshop<\/em>, pp. 384-387 (2006).<\/li>\n
                                      37. Jiang, X.N., J.R. Yuan, A. Cheng, K. Snook, PJ Cao, P.W. Rehrig, W.S. Hackenberger, G. Lavallee, X. Geng, and T.R. Shrout, \u201cMicrofabrication of piezoelectric composite ultrasound transducers (PC-MUT)<\/a>\u201d, Proc. IEEE Ultrasonics Symposium<\/em>, pp.918-921 (2006).<\/li>\n
                                      38. Yuan, J., X.N. Jiang, P. Cao, K. Snook, P. Rehrig and W. Hackenberger, \u201cHigh frequency piezo composites microfabricated ultrasound transducers for intravascular imaging<\/a>\u201d, Proc. IEEE Ultrasonics Symp<\/em>., pp.264-268 (2006).<\/li>\n
                                      39. Xu, T.B., J. Su, X.N. Jiang, P. W. Rehrig, S. Zhang, T. R. Shrout, and Q. Zhang, \u201cEffect of bending stiffness of the electroactive polymer element on the performance of a Hybrid Actuator System (HYBAS)<\/a>\u201d, Proceedings of SPIE <\/em>Vol. 6168, pp. 61682H-1-61682H-9 (2006).<\/li>\n
                                      40. Xu, T.B., J. Su, X.N. Jiang, P. W. Rehrig,, and W. S. Hackenberger, \u201cHigh load capable piezoelectric single crystal Actuators\u201d, Mater. Res. Soc. Symp.<\/em> Proc., Vol. 888, 0888-V08-02.1 (2006).<\/li>\n
                                      41. Jiang, X.N., P.W. Rehrig, W.S. Hackenberger, and T. R. Shrout, \u201cCryogenic actuators and motors using single crystal piezoelectrics<\/a>\u201d, Advances in Cryogenic Engineering<\/em>, Vol. 51B, pp. 1783-1789 (2005).<\/li>\n
                                      42. Jiang, X.N., P.W. Rehrig, W.S. Hackenberger, S. Perini, M. Lanagan, X.X. Xi, E. Furman, E. Prophet, B. Willemsen, and B. Hammond, \u201cSingle crystal piezoelectric actuators for tunable HTS filters<\/a>\u201d, Advances in Cryogenic Engineering<\/em>, Vol. 51A, pp. 928-935 (2005).<\/li>\n
                                      43. Snook, K., P. W. Rehrig, X.N. Jiang, W. S. Hackenberger, R. J. Meyer, and D. Markley, \u201cAdvanced piezoelectric single crystal based transducers for naval sonar applications<\/a>\u201d, Proc. IEEE Ultrasonic Symposium<\/em>, pp.1065-1068 (2005).<\/li>\n
                                      44. Jiang, X.N., P. W. Rehrig, W. S. Hackenberger, E. Smith, S. Dong, D. Viehland, J. Moore, B. Patrick,\u201cAdvanced piezoelectric single crystal based actuators<\/a>\u201d, Proc. SPIE Smart Materials and Structures<\/em>, Vol. 5761, pp.253-262 (2005).<\/li>\n
                                      45. Rehrig, P.W., W.S. Hackenberger, X.N. Jiang, R.J. Meyer, \u201cAdvanced piezoelectric single-crystal-based transducers for naval sonar applications<\/a>\u201d, Proc. SPIE Smart Materials and Structures<\/em>, Vol. 5761, pp.263-271 (2005).<\/li>\n
                                      46. Jiang, X.N., P.W. Rehrig, W.S. Hackenberger, J. Moore, S. Chodimella and B. Patrick, \u201cSingle crystal piezoelectric actuators for advanced deformable mirrors<\/a>\u201d, Proc. ASME International Mechanical Engineering Congress and Exposition<\/em>, Vol.3, IMECE-60504 (2004).<\/li>\n
                                      47. Jiang, X.N., S. Dong, P.W. Rehrig, W.S. Hackenberger, D. Viehland, \u201cSingle crystal ultrasonic motor for cryogenic actuations<\/a>\u201d, Proc. IEEE UFFC<\/em>, pp. 1314-1317 (2004).<\/li>\n
                                      48. Hackenberger, W.S., X.N.Jiang, X.Geng, A. Winder, and F. Forsberg, \u201cBroad band single crystal transducer for contrast agent harmonic imaging<\/a>\u201d (II), Proc. IEEE UFFC<\/em>, Montreal, pp. 1-30-1033 (2004).<\/li>\n
                                      49. Hackenberger, W.S., X.N. Jiang, X. Geng, A. Winder, and F. Forsberg, \u201cBroadband single crystal transducer for contrast agent harmonic imaging<\/a>\u201d (I), Proc. IEEE Ultrasonics Symposium<\/em>, pp. 778-781 (2003).<\/li>\n
                                      50. Jiang, X.N., P.W. Rehrig, W. Hackenberger, and T. Shrout, \u201cLarge stroke and low profile single crystal piezoelectric actuators<\/a>\u201d, SPIE Proceeding<\/em> Vol.5053, pp.436-444 (2003).<\/li>\n
                                      51. Rehrig, P.W., W.S. Hackenberger, X.N.Jiang, R. J. Meyer, and X. Geng, \u201cHigh-performance tonpilz transducers utilizing d32-cut piezoelectric single crystals<\/a>\u201d, SPIE Proceedings<\/em>, Vol. 5053, pp.445-452 (2003).<\/li>\n
                                      52. Tutwiler, T.R., J.P. Titter, T.A. Ritter, K.K. Shung, W.S. Hackenberger, X.N.Jiang, and P.W. Rehrig,\u201cPrecision mechanically scanned HF ultrasound arrays<\/a>\u201d, Proc. IEEE Ultrasonics Symposium<\/em>, pp.863-876 (2003).<\/li>\n
                                      53. Rehrig, P.W., W. Hackenberger, X.N. Jiang, R. Meyer, and X. Geng, \u201cNaval device applications of relaxor piezoelectric single crystals<\/a>\u201d, Proc. IEEE Proc. Ultrasonics Symposium<\/em>, pp.733-737 (2002).<\/li>\n
                                      54. Jiang, X.N., \u201cMicrofabrications for ceramic MEMS\u201d, Technical Digest of Berkeley MEMS<\/em>, pp.45-46 (2001).<\/li>\n
                                      55. Sun, C., X.N. Jiang, and X. Zhang, \u201cExperimental and numerical study on micro-stereolithography of ceramics\u201d, ASME\u00a0 MEMS<\/em>-Vol. 1, pp.339-345 (1999).<\/li>\n
                                      56. Jiang, X.N., C. Sun and X. Zhang, \u201cMicro-stereolithography of 3D complex ceramic microstructures and PZT thick films\u00a0 on Si substrate\u201d, ASME MEMS<\/em>-Vol.1, pp.67-73 (1999).<\/li>\n
                                      57. Zhang, X., X.N. Jiang, and C. Sun, \u201cMicro-scale free surface rapid prototyping<\/a>\u201d, Technical Digest of CLEO\u201999<\/em>,\u00a0 Baltimore, Maryland, US, May 23-28, pp.513-514 (1999).<\/li>\n
                                      58. Zhang, X., X. N. Jiang, and C. Sun, \u201cMicrostereolithography for MEMS\u201d, ASME DSC<\/em>, Vol.66, pp.3-9 (1998).<\/li>\n
                                      59. Jiang, X.N., Z. Y. Zhou, X. Y. Huang, and C. Y. Liu, \u201cLaminar flow through microchannels used for microscale cooling systems<\/a>\u201d,\u00a0 Proc. of\u00a0 IEEE 1st\u00a0 Electronic Packaging Technology Conference<\/em>, pp. 119-122 (1997).<\/li>\n
                                      60. Jiang, X.N., Z. Y. Zhou, Y. Li, Y. Yang, X.Y. Ye, X. Y. Huang, and C. Y. Liu, \u201cMicrodynamics for reciprocating micropumps\u201d, International Conference on\u00a0 Micromechatronics for Information and Precision Equipment<\/em>,\u00a0 pp. 698-701 (1997).<\/li>\n
                                      61. Jiang, X.N., Z. Y. Zhou, Y. Li, Y. Yang, X. Y. Huang, and C. Y. Liu, \u201cExperiments and analysis for micro-nozzle\/diffuser flow and micro valveless pumps<\/a>\u201d,\u00a0 Technical Digest of Transducers\u201997<\/em>, pp369-372 (1997).<\/li>\n
                                      62. Yang, Y., Z.Y. Zhou, X.Y. Ye, and X.N. Jiang, \u201cA bimetallic thermally actuated micropump\u201d, ASME DSC<\/em>-Vol.59, pp.351-354 (1996).<\/li>\n
                                      63. Jiang, X.N., Z. Y. Zhou, Y. Li, Y. Yang, and X. Y. Ye, \u201cFlow behavior through microfluidic valves\u201d,ASME\u00a0 DSC<\/em>-Vol.59, pp.221-224 (1996).<\/li>\n
                                      64. Jiang, X.N., Z. Y. Zhou, Y. Li, X. Y. Ye, and Y. Yang, \u201cFlow modeling analysis for microvalves and micropumps\u201d, The 3rd\u00a0\u00a0 Asian\/Pacific\u00a0 International Symposium on Instrumentation, Measurement and\u00a0\u00a0 Automatic Control<\/em>, Beijing, China, Aug.20-23, pp.95-98 (1996).<\/li>\n
                                      65. Jiang, X.N., Z. Y. Zhou, J. Yao, Y. Li, and X. Y. Ye, \u201cMicrofluid flow in microchannel\u201d,Tansducers’95<\/em>,\u00a0 Vol.2 pp317-320 (1995).<\/li>\n<\/ol>\n<\/div>\n<\/div>\n
                                        \n
                                        \n

                                        <\/a>Patents<\/h3>\n<\/div>\n<\/div>\n
                                        \n
                                        \n
                                          \n
                                        1. Jiang, X., T. Kim, and Y. Zhu, \u201cFlexible piezo-composite sensors and transducers\u201d, US Patent No. 11,877,517 B2, Jan. 16, 2024.<\/li>\n
                                        2. Jiang, X. and B. Zhang, \u201cSystem and methods for ultrasound induced thrombolysis with magnetic microbubbles and a rotational magnetic field\u201d, US Patent No. 11,883,679, Jan. 30, 2024.<\/li>\n
                                        3. Xu, T., E. Siochi, L. Zuo, X. Jiang, and J. Kang, \u201cMultistage force amplification of piezoelectric stacks\u201d, US Patent #9,048,759 B2, 2015.<\/li>\n
                                        4. Xu, T., X.N. Jiang, and J. Su, \u201cPiezoelectric multilayer-stacked hybrid actuation\/transduction system\u201d,\u00a0US\u00a0Patent\u00a0#\u00a08680749 B2, 2014.<\/li>\n
                                        5. Xu, T., J. Su, and X.N. Jiang, \u201cAdvanced modified high performance synthetic jet actuator with curved chamber\u201d,\u00a0US\u00a0Patent\u00a0#8662412 B2, 2014.<\/li>\n
                                        6. <\/u>Xu, T., X.N. Jiang, and J. Su, \u201cAdvanced high performance horizontal piezoelectric hybrid synthetic jet actuator\u201d, US Patent # 8,235,309, 2012.<\/li>\n
                                        7. Jiang, X.N., W.S. Hackenberger, and K. Snook, \u201cMicromachined piezoelectric ultrasound transducer arrays\u201d, US \u00a0Patent # 8148877 B2, 2012.<\/li>\n
                                        8. Xu, T., X.N. Jiang, and J. Su, \u201cAdvanced high performance vertical hybrid synthetic jet actuator,\u201d US Patent # 8052069, 2011.<\/li>\n
                                        9. Jiang, X.N., W.S. Hackenberger, and K. Snook, \u201cMicromachined piezoelectric ultrasound transducer arrays\u201d, US Patent # 8008842, 2011.<\/li>\n
                                        10. Rehrig, P., X.N. Jiang, W. Hackenberger, J. Yuan and R. Romley, \u201cMicromachined imaging transducer<\/a>\u201d,\u00a0 US Patent # 7622853, 2009.<\/li>\n
                                        11. Xu, T., X.N. Jiang, J. Su, P. Rehrig, and W. Hackenberger, “Hybrid piezoelectric energy harvesting transducer system”\u00a0 US Patent # 7446459, 2008.<\/li>\n<\/ol>\n<\/div>\n<\/div>\n
                                          \n
                                          \n

                                          <\/a>Books and Book Chapters<\/h3>\n<\/div>\n<\/div>\n
                                          \n
                                          \n
                                            \n
                                          1. Ma, Jianguo., and Xiaoning Jiang. \u201cContrast-Enhanced Dual-Frequency Super-Harmonic Intravascular Ultrasound (IVUS) Imaging.\u201d Multimodality Imaging. Springer, Singapore, 2020. 105-151.<\/li>\n
                                          2. Jiang, X., S. Li, J. Kim, J. Ma, W. Huang, and X. Jian, “ASME Biomedical & Nanomedical Technologies Concise Monograph Series”, Titled “High frequency piezo-composite micromachined ultrasound transducer array technology for biomedical imaging”, Description: New York : ASME Press, 2017\u00a0(ISBN: 9780791860441)<\/li>\n
                                          3. Zhang, S.,\u00a0H. Lee, X. Jiang, W. Huang, S. Sherrit, and M. Kropf, \u201cCryogenic Piezoelectric Materials for Transducer Applications\u201d, Chapter 7 in a book titled \u201cLow Temperature Materials and Mechanisms\u201d,\u00a0edited by \u00a0Yoseph Bar-Cohenpp, CRC Press, pp.183-212, 2016. (ISBN: 9781498700382)<\/li>\n
                                          4. Huang, W., F.G. Yuan, and X. Jiang, Chapter : \u201cFlexoelectric effect, materials, and structures\u201d, Chapter 5 in a book titled \u201cStructural Health Monitoring (SHM) in Aerospace Structures\u201d, edited by Fuh-Gwo Yuan, Woodhead Publishing, pp.119-148, 2016. (ISBN: 9780081001486)<\/li>\n
                                          5. Huang, W., F.G. Yuan, and X. Jiang, Chapter : \u201cFlexoelectric strain gradient sensing\u201d, Chapter 6 in a book titled \u201cStructural Health Monitoring (SHM) in Aerospace Structures\u201d, edited by Fuh-Gwo Yuan, Woodhead Publishing, pp. 149-174, 2016. (ISBN: 9780081001486)<\/li>\n
                                          6. W.S. Hackenberger, J. Luo, X.N. Jiang, K. Snook, S. Zhang, and T. Shrout, \u201cRecent development and applications of relaxor piezoelectric crystals\u201d, Chapter 3 in Part 1 of Book Edited by Z.G. Ye, Woodhead Publishing Limited, Cambridge, England, 2008. (ISBN 1 84569 186 5)<\/li>\n
                                          7. V.K. Varadan, X.N. Jiang, and V.V. Varadan, \u201cMicrostereolithography and other fabrication techniques for 3D MEMS\u201d, John Wiley & Sons Ltd, England, 2001. (ISBN 0 471 52185 X)<\/li>\n
                                          8. X.N. Jiang and X. Zhang, Chapter: \u201cMicromanufacturing\u201d in the book titled \u201c Industrial engineering applications and practices\u2014user\u2019s encyclopedia\u201d, 14 pages, International Journal of Industrial Engineering, 1999 (ISBN 0-9654599-0-X).<\/li>\n<\/ol>\n<\/div>\n
                                            <\/div>\n<\/div>\n
                                            \n

                                            COPYRIGHT\u00a9 2012 XIAONING JIANG.
                                            \nMAE, NCSU, RALEIGH, NC<\/p>\n<\/div>\n","protected":false},"excerpt":{"rendered":"

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