Xiaoning Jiang, Ph.D. - nsuf.inl.gov

Jiang’s resume (as of May 2019)

Xiaoning Jiang, Ph.D.

University Faculty Scholar Distinguished Professor, Department of Mechanical and Aerospace Engineering

Adjunct Professor, UNC-Chapel Hill & NC State Joint Department of Biomedical Engineering

911 Oval Drive 3282 Engineering Building III

Campus Box 7910 North Carolina State University, Raleigh, NC

Tel: 919-515-5240 Fax: 919-515-7968

Email: [email protected]

EDUCATION

Postdoc 1997-2001 The Pennsylvania State University

Postdoc 1996-1997 Nanyang Technological University

Ph.D. 1997 Precision Instruments, Tsinghua University

M.S. 1992 Mechanical Engineering, Tianjin University

B.S. 1990 Mechanical Engineering, Shanghai Jiaotong University

PROFESSIONAL EXPERIENCE

Nov. 2009- present NC State University, Raleigh, NC.

Distinguished Professor, Nov. 2018-present: Mechanical and Aerospace Engineering

Full Professor, July 2015- present: Mechanical and Aerospace Engineering

Tenured Associate Professor July 2013 -June 2015: Mechanical and Aerospace Engineering

Tenure Track Associate Professor, Nov. 2009 – June 2013: Mechanical and Aerospace Engineering

Adjunct Professor of Biomedical Engineering 2010-present

University faculty Scholar, 2017-

Research smart M/NEMS, nanoengineering, micromachined ultrasound transducers, renewable power, high frequency ultrasound, intravascular ultrasound imaging and therapy, ultrasound NDT/NDE, electromechanical sensors, actuators, and transducers for medicine, biology and industrial applications. Teach undergraduate and graduate courses. Provide on-campus and off-campus services.

August 2016-January 2017 City University of Hong Kong, Hong Kong

Visiting Professor

mailto:[email protected]


2001-2009 TRS Technologies, Inc., State College, PA.

Vice President for Technology 2008 -2009

Chief Scientist 2007-2009

Company management team member 2006-2009

Senior Research Scientist 2005-2007

Research Scientist 2001-2005

Primary research focus was to research and develop novel piezoelectric transducers, sensors, and actuators. Research was mainly funded by NASA, NIH, DOD, and medical industry.

2001 Standard MEMS, Inc., Long Island, NY.

R&D Engineer 2001

Researched and developed MEMS product including pressure sensors, gas sensors and microphone.

1997-2001 The Pennsylvania State University, University Park, PA.

Research Associate 2000-2001

Postdoctoral Scholar 1997-1999

Researched and developed novel micromanufacturing including - laser direct write (microstereolithography) of 3D structures and thick films of polymer, ceramics (alumina, silica, piezoelectric ceramics (PZT), etc.), and metals on silicon substrate. Taught <MEMS and Smart Structures>, <RF MEMS> courses for Undergraduate and Graduate students.

1996-1997 Nanyang Technological University, Singapore.

Postdoctoral Fellow in School of MPE

Researched Microfluid flow and microcooling for electronics.

1992-1996 Department of Precision Instruments and Mechanology, Tsinghua University, Beijing, China.

Research Assistant on Microelectromechanical Systems

Teaching Assistant on Mechanical Design and Drawing for undergraduate students.

Investigated microfluid flow through microchannels with various cross sections, and eveloped Si micro-valves and micropumps for microfluid handling systems.

1990-1992 Department of Mechanical Engineering, Tianjin University, Tianjin, China.

Research Assistant on Robot control.

Measured pose error of an assembly robot and developed a pose error compensation algorithm.

SCHOLARLY AND PROFESSIONAL HONORS, ORGANIZATIONS AND AWARDS


Distinguished Lecturer, IEEE Nanotechnology Council (2018-)

University Faculty Scholar, NC State University (2017-)

R&D100 Award finalist—Special Recognition, 2016.

IEEE Ultrasonics Symposium Student Paper Competition Award (2016, Advisor of the student winner)

Departmental graduate symposium 1st Prize (out of 80 PhD students), 2016. (Advisor)

IDTechEx Best Technical Development within Energy Harvesting and Storage Award, 2015.

ASME IMECE Track-3 PhD Student Paper Competition 2nd Prize, 2015. (Advisor)

NC State MAE Research Excellence Award, 2015.

NC State Chancellor Innovation Funds award, 2015.

NC State MAE Outstanding Research Award, 2014.

IEEE UFFC Representative in IEEE Nanotechnology Council, 2014-present.

DOD DURIP Award, 2013.

ASNT Faculty Grant recipient, 2013.

Best Research Publication, National Institute of Aerospace (“A Piezoelectric Multi-layer-stacked Hybrid Actuation/Transduction System” by Tian-Bing Xu, Xiaoning Jiang, and Ji Su, Applied Physics Letters, Vol. 98, p.243503, 2011)

IEEE Ultrasonics Symposium Student Paper Competition Award (2011, Advisor)

Winner, Best Technology Development of Energy Harvesting, IDTechEx (2011)

NC State Faculty Research and Professional Development Award, 2010.

2nd prize of Beijing Science and Technology Progress Award. 2009.

6 Certificates of Recognition for Invention, NASA Inventions and Contributions Board, 2008-2013.

First Prize of China Instrument Society Scholarship, 1996.

Gaotian Scholarship of Tsinghua University, 1994.

First Order of Guanghua Scholarship of Tsinghua University, 1993.

First Order Scholarship of Tianjin University, 1991.

Six times, the People Scholarship of Shanghai Jiaotong University. 1986-1990.

American Society of Mechanical Engineers (ASME, Fellow)

The Institute of Electrical and Electronics Engineers (IEEE, Senior Member)

The International Society for Optics and Photonics (SPIE, Senior Member)

STUDENTS RECEIVED PHD DEGREES UNDER DR. JIANG’S ADVISORY

[1] Shujin Huang, “Study on flexoelectric materials, structures and their applications”, Dec. 2018.

http://www.asme.org/

http://www.ieee.org/


[2] Wei-Yi Chang, “Novel nanocomposites for piezoelectric and photoacoustic transduction structures”, Nov. 2018. (Now Scientist at CTS)

[3] Taeyang Kim, “Novel Piezoelectric Sensors: Design, Prototyping and Characterization”, April 2018.

[4] Jinwook Kim, “Miniaturized Ultrasound Transducers for the Acoustic Excitation of Microbubbles and Microgels”, June 2017. (Now Postdoc at UNC Chapel Hill)

[5] Sibo Li, “Study on Micromachined Piezoelectric Material and Dual-layer Transducers for

Ultrasound Imaging”, April 2017. (Now at Philipps Medical)

[6] Zhuochen Wang, “Dual-frequency Ultrasound Transducers for Medical Imaging”, October 2016. (Now Assistant Professor at Tianjin University)

[7] Laura Tollier, “Study on Novel Piezoelectric Transduction Structures”, July 2016. (Now in SPAWAR Systems Center)

[8] Sijia Guo, “High-Intensity Ultrasound in Adherent Cell Sorting and Tissue Ablation”, May 2015. (Now Postdoc at Univ. of Maryland)

[9] Seol Ryung Kwon, “Flexoelectricity of Barium Strontium Titanate and Its Applications”, Dec. 2014.

[10] Wenbin Huang, “Study on Strain Gradient Sensing and Flexoelectric Micro/Nano Structures”, Dec. 2014. (Now specially appointed Professor at Chongqing Univ.)

[11] Jianguo Ma, “Multi-frequency Ultrasound Transducers and Their Applications in Tissue Ablation and Intravascular Acoustic Angiography”, Dec. 2014. (Now Associate Professor at Beihang University)

[12] Kyungrim Kim, “Novel Shear Mode Piezoelectric Sensors and Their Applications”, Dec. 2013. (Now at Sumsung)

STUDENTS RECEIVED MS DEGREES UNDER DR. JIANG’S ADVISORY

[1] Karthik Narasimhan, “Design and Finite Element Analysis of 1-3 Flexible Composite Transducer for Non-Destructive Testing of Aircraft HVAC Pipes”, May 2017.

[2] Joseph Johnson, “High-Temperature Yttrium Calcium Oxyborate Acoustic Emission Sensor”, Dec. 2013.

[3] Satyaraj Ghangam, May 2013.

[4] Guang Yang, May 2012.

[5] Saurabh Bakshi, “Cell Characterization Using High Frequency Ultrasound”, May 2012.

[6] Vishal Kulkarni, “Flexible Two-dimensional Ultarsonic Transducer Array: Design, Fabrication and Characterization”, Dec. 2011.

PHD STUDENTS CURRENTLY UNDER DR. JIANG’S ADVISORY

[1] Huaiyu Wu, 2016-; [2] Bohua Zhang, 2017-; [3] Howuk Kim, 2018-; [4] Qianqian Cai, 2018-; [5] Leela Devi Goel. 2018-; [6] Haotian Wan, 2018-.

POSTDOCTORAL FELLOWS, VISITING SCHOLARS AND STUDENTS SUPERVISED BY DR.

JIANG AND THEIR CURRENT AFFILIATION (IF KNOWN):

[1] Dr. Chang Peng, 2018-present (Postdoc)

[2] Dr. Di Wu, 2018 (Research Scholar)


[3] Dr. Chengtao Luo, 2017-present (Postdoc)

[4] Dr. Jinwook Kim, 2017-present (Postdoc)

[5] Dr. Jianlong Ji, 2018-2019 (Visiting Scholar)

[6] Mr. Fan Zhang, 2017-2018 (Visiting Student)

[7] Dr. Xiezhao Lin, 2017- 2018 (Visiting Scholar)

[8] Dr. Brooks Lindsey, 2015-2017 (Faculty, Georgia Tech)

[9] Mr. Lu Qi, 2016-2017 (Visiting PhD Student)

[10] Dr. Hao Feng, 2016-2017 (Faculty, Tianjin University)

[11] Dr. Pelin Berik, 2016-2017 (Postdoc)

[12] Dr. Zhiwu An, 2015- 2016 (Chinese Academy of Science)

[13] Dr. Wenbin Huang, 2015 (Chongqing University, China)

[14] Dr. Yongbin Liu, 2014-2015 (Anhui University, China)

[15] Dr. Hui Zhang, 2014-2015 (Tianjin University, China)

[16] Mr. Longlong Shu, 2013 (Xi’an Jiaotong University, China)

[17] Dr. Xiaohua Jian, 2013 (Suzhou Institute of Biomedical Engineering and Technology, China)

[18] Dr. Di Wu, 2013 (Beijing Jiaotong University, China)

[19] Dr. Won Tae Kwon, 2012 (University of Seol, Korea)

TEACHING EVALUATION IN LAST 5 YEARS

Course Semester Instructor explained material well

Overall, instructor was an effective teacher

Overall, the course improved my knowledge of the subject

Overall, the courses was excellent

Overall, labs were effective learning experience

MAE 532 Spring 2014 3.9/4.3 4.3/4.5 4.3/4.6 4.2/4.4 N/A

MAE 495 Fall 2014 4.6/3.8 4.6/3.9 4.7/4.2 4.5/3.7 N/A

MAE 314 Spring 2015 4.1/3.8 4.3/3.9 4.9/4.2 4.3/3.8 N/A

MAE 532 Spring 2015 4.4/4.3 4.5/4.3 4.8/4.6 4.6/4.3 N/A

MAE 495 Fall 2015 4.7/3.8 4.7/4.0 4.9/4.4 4.7/3.8 N/A

MAE 314 Spring 2016 4.1/4.0 4.4/4.1 4.6/4.3 4.4/3.9 N/A

MAE 532 Spring 2016 4.3/4.4 4.6/4.4 4.5/4.6 4.5/4.3 N/A

MAE 440 Fall 2017 4.6/3.8 4.8/3.9 4.8/4.2 4.8/3.8 4.9

MAE 214 Spring 2018 3.7/3.9 4.0/4.0 4.5/4.2 4.0/3.8 N/A


MAE 532 Spring 2018 4.5/4.1 4.7/4.2 4.7/4.3 4.7/4.2 N/A

MAE 440 Fall 2018 3.9/3.8 3.8/4.0 4.2/4.1 3.6/3.8 N/A

MAE 214 Fall 2018 3.7/3.8 4.1/4.0 4.4/4.1 4.0/3.8 N/A

(Note: A/B—A-my score/B-departmental average)

COURSES INSTRUCTED

Solid Mechanics (UG, MAE 314, MAE 214)

Strength of Mechanical Components (UG, MAE 316)

Principles of Automatic Control (UG, MAE 435)

Non-destructive Testing and Evaluation (UG, MAE 495, MAE 440)

Introduction to Multidisciplinary Nanotechnology Laboratory (UG & G, MAE 495)

Smart Structures and Micro-Transducers (G, MAE 532, 589)

RESEACH INTEREST AND PROJECTS

Micro/nanofabrications with smart materials and structures incorporation; micro/nano-sensors, actuators and transducers; ultrasound imaging for medical and industrial NDE/NDT applications; Ultrasound in medicine and biology; high power ultrasonic therapies; ultrasonic drug delivery; sensors and actuators for extreme environment. The budget total of externally and internally sponsored grants, contracts and gifts that support my scholarship is more than $16.2 M. The research at NCSU since Nov. 2009 has been supported by ~ $8.6 M, with my portion of ~ $5.0 M.

Current/Awarded Projects (Total: $4,428,1131; Jiang’s portion: $2,387,104) 1. Title: Forward viewing catheter-delivered microbubble enhanced sonothrombolysis (FVCAMUS)

Agency/Program: NIH Duration: August 15, 2018 – June 30, 2022 PI: Xiaoning Jiang Amount: $2,286,591*

2. Title: Forward-viewing intravascular transducers for thrombolysis Agency/Program: SonoVascular, Inc. Duration: Sept 1, 2018 – May 31, 2019 PI: Xiaoning Jiang Amount: $31,772*

3. Title: Effect of AC Poling on Dielectric and Piezoelectric Properties of Relaxor Single Crystals for Acoustic Sensors Agency/Program: ONR

1 Estimated amount is considered for the awards under incremental funding or contract in negotiation (awards denoted with *)


Duration: June 1, 2018 – May 31, 2021 PI: Xiaoning Jiang Amount: $496,435*

4. Title: ULTRA – Ultrasound for Resource-limited Areas Agency/Program: UNC - UNC Chapel Hill (Prime--Bill and Melinda Gates Foundation) Duration: May 16, 2018 – April 30, 2020 PI: Xiaoning Jiang Amount: $150,000*

5. Title: Novel Biomedical Ultrasound Sensors Agency/Program: Goodix Duration: February 20, 2018 – February 19, 2020 PI: Xiaoning Jiang Amount: $200,658

6. Title: High Temperature Embedded/integrated Sensors (hiteis) for Remote Monitoring Of Reactor

and Fuel Cycle Systems Agency/Program: DOE Duration: October 1, 2017 – Sept. 30, 2020 PI: Xiaoning Jiang (Co-PIs: Dr. Mohamed Bourham, and Dr. Mo-Yuen Chow) Amount: $999,688

7. Title: Ultrasonic Characterization of Atherosclerotic Plaque using Multiple Scattering Agency/Program: NIH Duration: September 30, 2016 – July 31, 2019 PI: Marie Muller (Co-Is: Paul A Dayton and Xiaoning Jiang) Amount: $137,966*

8. Piezoelectric devices (Gift Grant) Agency/Program: Industry Duration: Nov. 2011 – PI: Xiaoning Jiang Amount: $100,000 9. Medical Ultrasound (Gift Grant) Agency/Program: Industry Duration: September 2012 – PI: Xiaoning Jiang Amount: $50,000 10. BioMedical Ultrasound (Gift Grant) Agency/Program: Industry Duration: May 2017 – PI: Xiaoning Jiang

Amount: $50,000 Past Projects (After joining NCSU total: $4,152,322; Jiang’s portion: $2,635,349):

1. “eVisR Ultrasound Assessment of Dystrophic Muscle Degeneration in Boys with Duchenne Muscular

Dystrophy Using a Custom Row-Column Transducer Array”, UNC TraCS, March 01, 2017 – February 28, 2019, $25,000, Principal Investigator.


2. “Surface and Domain Nano-Engineering of Relaxor Single Crystal for Acoustic Sensors”, ONR, June 01,

2015 – August 31, 2018, $362,105, Principal Investigator (Co-PI: Dr. Chih-Hao Chang).

3. “Dual-frequency intravascular arrays for functional imaging of atherosclerosis”, NIH, August 01, 2012 – May 31, 2018, $2,035,875, Principal Investigator (Co-I: Paul Dayton).

4. “Next generation tools for quantitative imaging and analysis of cancer-associated angiogenesis in breast cancer”, UNC Lineberger, October 01, 2016 – September 30, 2018, $20,000, Principal Investigator.

5. “Flexoelectricity in Nanostructures: Theory, Nanofabrication and Characterization”, ARO, October 01, 2011 – June 30, 2017, $529,162, Principal Investigator (with Co-PI Dr. Fuh-Gwo Yuan).

6. “Performance Evaluation of High Temperature NDE Sensors”, EPRI, June 06, 2016 – June 30, 2017,

$15,000, Principal Investigator. 7. “Design and Analysis of a Lead-Free d36 in-Plane Shear-Based Piezoelectric Torsion Transducer”, Max

Kade Foundation, April 29, 2016 – April 28, 2017, $55,200, Principal Investigator.

8. “Evaluation of Flexible Micropost Arrays for Shear Stress Measurement”, NASA, July 10, 2014 – July 09, 2016, $144,622, Principal Investigator (Co-PIs: Dr. Yong Zhu, Dr. Ashok Gopalarathnam).

9. “Piezoelectric Composite Micromachined Multifrequency Transducers for High-Resolution, High-

Contrast Ultrasound Imaging for Improved Prostate Cancer Assessment”, UNC/DOD, August 01, 2012 – July 31, 2016, $161,407, Principal Investigator.

10. “Laser Ultrasound Patch Using Carbon Nanofiber Composites”, NCSU RISF, July 01, 2015 – June 30,

2016, $25,000, Principal Investigator (Co-PIs: Dr. Xiangwu Zhang, Dr. Tiegang Fang, Dr. Zhen Gu).

11. “A Tumor Locating Device and Instrument for Needle Biopsy”, BioSono/NIH, October 01, 2014 – June 30, 2015, $43,640, Principal Investigator.

12. “In-Vivo Evaluation of Multi-frequency Ultrasound Transducers for Intravascular Applications”, NC

State—CIF, August 01, 2014 – July 31, 2015, $74,999, Principal Investigator (Co-PI: Dr. Paul Dayton)

13. “Flexoelectric Strain Gradient Sensors- a New Sensing Technology for In-situ Structure Health Monitoring”, NSF-CMMI, May 01, 2011-April 30, 2015, $260,001, Principal Investigator (Co-PI: Dr. Fuh-Gwo Yuan).

14. “DURIP: Piezoresponse Force Microscope (PFM) with Controlled Environment for Characterization of Flexoelectric Nanostructures”, DOD, August 01, 2013 – Jan. 31, 2015, $199,821, Principal Investigator.

15. “Planning Grant: I/UCRC for Dielectrics and Piezoelectrics (CDP)”, NSF, 9/01/2012-8/31/2014, $15,280, Co-PI (PI: Elizabeth Dickey, Co-PIs: Jon-Paul Maria, Jur Jesse).

16. “Stability Testing of High Temperature Ultrasonic Conventional UT Probe-Evaluation of High

Temperature Transducers”，Electric Power Research Institute, Inc., 12/03/2013-12/31/2013, $4,500,

Principal Investigator.

17. “Aerodynamic Sensing using Miniature Transducers”, General Electric Co., March 01, 2013 – December

31, 2013, $59,696, Co－PI (PI: Ashok Gopalarathnam)


18. “Nondestructive Testing and Evaluation - An Undergraduate Course at NC State”, American Society for

Nondestructive Testing, Inc., May 01, 2013 – December 31, 2013, $8,000，Principal Investigator.

19. “Bottom-Up Meets Top-Down - An Integrated Undergraduate Nanotechnology Laboratory at NC

State”, NSF, January 01, 2011-June 30, 2013, $200,000, Co-PI (PI: Yong Zhu, Co-PIs: Joe Tracy, Jingyan Dong, Xiaoning Jiang and M. Gail Jones”

20. “High Temperature Piezoelectric Sensors for Future Propulsion Structure Health Monitoring”, NC

Space Grant Consortium, July 01, 2010 – June 30, 2013, $25,000, Principal Investigator. 21. “Bi-frequency PC-MUT Co-linear Array for Ophthalmic Imaging”, Blatek, Inc. (NIH), July 01, 2011 –

June 30, 2013, $70,119, Principal Investigator.

22. “MR Compatible Multifrequency Focused Ultrasound”, UNC-CH/TRACS, 8/01/2011 – 7/31/2012, $25,000. Principal Investigator.

23. “Modeling and Tests of Conformable 2D Arrays for NDE”, UTRC, 9/30/2011-12/09/2012, $18,000, Principal Investigator.

24. “Scale Effect in Flexoelectricity for Novel Sensors and Detectors”, ARO, 10/01/2010-6/30/2011,

$50,000, Principal Investigator. 25. “A Novel Flexoelectric Nanogenerator”, NCSU/FRPD, 7/01/2010-6/30/2011, $7,000, Principal

Investigator.

26. “EAGER: Materials and Structures for Strain Gradient Sensors”, NSF, 11/01/2010-4/30/2011, $45,000, Principal Investigator (Co-PI: Fuh-Gwo Yuan).

27. “Development of Conformal Phased Array Transducer”, UTRC, 10/01/2010-1/31/2011, $35,000, Principal Investigator.

Past Projects (Prior to joining NC State, $7,843,000):

1. “Cryogenic Clamp-on Ultrasonic Flowmeter Using Single Crystal Piezoelectric Transducers”, NASA, 1/2010-7/2010, $100,000, Principal Investigator (Transferred to Wesley Hackenberger at TRS)

2. “High Frequency Phased Array Imaging System for SiC NDE”, Air Force, 5/2010-4/2011, $300,000,

Principal Investigator (Transferred to Wesley Hackenberger at TRS) 3. “Piezoelectric Structural Microsensors for High Temperature Applications (> 1800 F)”, NASA,

12/2009-11/2011, $600,000, Principal Investigator (Transferred to Wesley Hackenberger at TRS). 4. “Cryogenic Fluid Transfer Components Using Single Crystal Piezoelectric Actuators”, NASA,

12/2009-11/2011, $600,000, Principal Investigator (Transferred to Wesley Hackenberger at TRS). 5. “Large Stroke Flextensional Actuators for Cryogenic Valves”, NASA JSC, 7/2009-10/2009, $47,000,

Principal Investigator. 6. “Piezoelectric Structural Sensor Technology for Extreme Environments (> 1800 F)”, NASA,

01/2009-07/2009, $100,000, Principle Investigator. 7. “Cryogenic Fluid Transfer Components Using Single Crystal Piezoelectric Actuators”, NASA,


01/2009-07/2009, $100,000, Principal Investigator. 8. “Single Crystal Piezoelectric Deformable Mirrors with High Actuator Density and Large Stroke”,

NASA, 01/2009-12/2010, $600,000, Principle Investigator. 9. “Advanced NDE for SiC Optics Using Micromachined High Frequency Phased Array Ultrasound”,

Air Force, 03/2008-03/2010, $750,000, Principal Investigator. 10. “Micromachined Piezoelectric Deformable Mirror for Cryogenic Adaptive Optics”, NASA, 01/2008-

07/2008, $100,000, Principal Investigator. 11. “Micromachined Electrode Connections for HF Composite (60 MHz) Transducers”, Boston

Scientific Corporation, 12/2007-04/2008, $210,000, Principal Investigator. 12. “Stepping Piezomotor for Large Torque, Precise Rotary and Linear Motion Control in Passive

Optics”, NASA, 12/07-11/09, $600,000, Principal Investigator. 13. “Micromachined Single Crystal HF Arrays for Interventional Cardiology Ultrasound”, NIH, 09/07-

08/09, $750,000, Co-PI with PI Dr. Kevin Snook. 14. “Micromachined Piezoelectric 2-D Arrays for 3-D Medical Imaging”, NIH, 8/2007-10/2008,

$100,000, Principal Investigator. 15. “Single Crystal for Naval Energy Harvesting Application”, NAVY, 06/07-12/07, $70,000, Sub-PI

($11,000) with Prime PI Dr. Gang Wang at TechnoSci, Inc. 16. “Advanced Single Crystal Ultrasound Transducers with High Sensitivity and Broad bandwidth for in-

situ NDE Imaging of SiC Mirror”, Air Force, 4/2007-01/2008, $100,000, Principal Investigator. 17. “Micromachined Piezoelectric High Frequency Ultrasound Transducers (60 MHz)”, Boston

Scientific Corporation, 04/2007-12/2007, $305,000, Principal Investigator 18. “Cryogenic Piezo Actuators for Lightweight, Large Aperture, Deployable Membrane Mirrors”,

NASA, 01/2007-07/2007, $100,000, Principal Investigator. 19. “Cryogenic Stepping Piezomotor for Large Torque, Precise Rotary Motion Control in Passive

Optics”, NASA, 01/2007-07/2007, $100,000, Principal Investigator. 20. “Hybrid Electrostatic/Flextensional Deformable Membrane Mirror for Lightweight, large Aperture

and Cryogenic Space Telescope”, NASA, 12/2006-11/2008, $600,000, Principal Investigator. 21. “Advanced Electroactive Single Crystal and Polymer Actuators for Passive Optics”, NASA,

12/2005-11/2007, $600,000, Principal Investigator (Switched from Dr. Paul Rehrig). 22. “Micromachined Piezoelectric Composites for HF Transducers and Transducer Arrays”, Boston

Scientific Corporation, 01/2005-05/2007, $650,000, Principal Investigator. 23. “Flextensional Microactuators for Large-Aperture Lightweight Cryogenic Deformable Mirrors”,

NASA, 01/2006-07/2006, $70,000, Principal Investigator. 24. “Miniaturized Lead Magnesium Niobate Titanate (PMN-PT) Single Crystal Piezoelectric Actuators”,

NASA JPL, 04/2005-11/2005, $40,000, Principal Investigator.


25. “Advanced Electroactive Single Crystal and Polymer Actuators Concepts for Passive Optics”,

NASA, 01/2005-07/2005, $70,000, Co-Investigator with PI Dr. Paul Rehrig. 26. “Advanced Actuator Concepts for High Precision Deformable Mirrors”, NASA, 01/2004-07/2004,

$70,000, Co-Investigator with PI Dr. Paul Rehrig. 27. “Single Crystal Piezomotor for Large Stroke, High Precision and Cryogenic Actuations”, NASA,

01/2004-07/2004, $70,000, Co-Investigator with PI Dr. Paul Rehrig. 28. “Micromachined Single Crystals for HF Transducers”, NIH, 07/2003-07/2004, $100,000, Co-

Investigator with PI Dr. Wesley Hackenberger.

SELECTED PUBLICATIONS Refereed Journal Articles Published or Accepted for Publishing (*: student or postdoc under advisory of Dr. Jiang) 1. 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.” IEEE Nanotechnology Magazine (2019).

2. Li, M, W. Shao, X. Jiang, and Z. Feng, “Deconvolution in Intravascular Ultrasound to Improve Lateral Resolution,” Ultrasonic Imaging (2019): 0161734619838456.

3. Wan, H.*, C. Luo*, W.-Y. Chang*, Y. Yamashita, and X. Jiang, “Effect of poling temperature on piezoelectric and dielectric properties of 0.7Pb(Mg1/3Nb2/3)O3 – 0.3PbTiO3 single crystals under alternating current poling“, Applied Physics Letters, 114, 17, 172901 (2019) (Featured Article).

4. Li, S.*, J. Tian, and X. Jiang, “A Micromachined PMN-PT Single Crystal Composite Circular Array for Intravascular Ultrasound Imaging”, ASME J of Medical Diagnostics 2(2), 021001 (Jan 18, 2019)

5. Gao, M., C. Luo*, W-Y. Chang*, C. M.Leung, J. Tian, J.Li, X. Jiang and D. Viehland, “Apparent phase

stability and domain distribution of PMN-30PT single crystals with nanograted Au/MnOx electrodes.” Acta Materialia (2019).

6. Jiang, X., and Al-Jumaily, A. M. “Ultrasound Transducers for Biomedical Imaging and Therapy“, Journal of Engineering and Science in Medical Diagnostics and Therapy, 1.4 (2018): 040201.

7. Zhang, S., F. Li, F. Yu, X. Jiang, H.-Y. Lee, J. Luo, and T. R. Shrout, “Recent developments in piezoelectric crystals“, Journal of the Korean Ceramic Society, 55, 5, 419-439 (2018).

8. Li, S.*, J. Kim*, Z. Wang*, S. Kasoji, B. Lindsey, P. Dayton, X. Jiang, “A Dual-frequency Co-linear Array for Acoustic Angiography in Prostate Cancer Evaluation”, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, Volume: 65 , Issue: 12, pp. 2418-2428, 2018.

9. 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-poled 0.63 Pb (Mg1/3Nb2/3)-0.37 PbTiO3 single crystal“, CrystEngComm, 20, 4745-4751 (2018).


10. Chang, W.*, C. Chung, C. Luo*, T. Kim*, Y. Yamashita, J. Jones, and X. Jiang, “Dielectric and piezoelectric properties of 0.7 Pb(Mg1/3Nb2/3)O3-0.3 PbTiO3 single crystal poled using alternating current”, Materials Research Letters, 6, 10, 537-544 (2018).

11. Huang, S.*, H.M. Yau, H. Yu, L. Qi*, F. So, J.Y. Dai,and X. Jiang, “Flexoelectricity in a metal/ferroelectric/semiconductor heterostructure”, AIP Advance, 8, 6, 065321, (2018 Editor’s Pick).

12. 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”, IEEE Transactions on Nanotechnology, 17, 5, 985-993 (2018).

13. Nguyen, B.H., S.S. Nanthankumar, X. Zhuang, P. Wriggers, X. Jiang, and T. Rabczuky, “Dynamic flexoelectric effect on piezoelectric nanostructures”, European Journal of Mechanics/ A Solids, 71, 404-409, (2018).

14. Huang, S.*, L. Qi*, W. Huang, L. Shu, S. Zhou, and X. Jiang, “Flexoelectricity in dielectrics: materials, structures and characterizations.” Journal of Advanced Dielectrics, 8, 02, 1830002 (2018).

15. Kim, Taeyang*, J. Kim*, and X. Jiang, “AlN Ultrasound Sensor for Photoacoustic Lamb Wave Detection in a High Temperature Environment”, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 65, 8, 1444-1451 (2018).

16. 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”, Mechanics of Advanced Materials and Structures, 2018. (Accepted)

17. Qi, L.*, S. Huang*, G. Fu, S. Zhou, and X. Jiang, “On the mechanics of curve flexoelectric microbeams”, International Journal of Engineering Science, 124, 1-15 (2018).

18. 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”, Acta Materialia, 143, 166-173 (2018).

19. 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”, Ultrasonics, 82, 298-303 (2018).

20. 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“, The Journal of the Acoustical Society of America, 142, 2563 (2017).

21. Kim, T.*, J. Kim*, and X. Jiang, “Transit Time Difference Flowmeter for Intravenous Flow Rate

Measurement Using 1-3 Piezoelectric Composite Transducers”, IEEE Sensors, 2017. (Accepted)

22. Huang, S.*, T. Kim*, D. Hou, D. Cann, J. L. Jones, and X. Jiang, "Flexoelectric Characterization of BaTiO3-0.08Bi(Zn1/2Ti1/2)O3", Applied Physics Letters (2017, accepted).

23. Kim, J.*, B. D. Lindsey*, W. Chang*, X. Dai, J. M. Stavas, P. A. Dayton and X. Jiang, “Intravascular forward-looking ultrasound transducers 1 for microbubble-mediated sonothrombolysis”, Scientific Reports, 7, 3454 (2017).

24. Lindsey, B. D.*, J. Kim*, P. Dayton, and X. Jiang, “Dual-frequency piezoelectric endoscopic transducer for imaging vascular invasion in pancreatic cancer”, IEEE Transactions on Ultrasonics, Ferroelectrics, and


Frequency Control, Volume: 64, Issue: 7, pp. 1078 – 1086 (2017).

25. Berik, P., W.-Y. Chang* and X. Jiang, “Piezoelectric d36 in-plane shear-mode of lead-free BZT-BCT single crystals for torsion actuation“, Applied Physics Letters, 110, 5, 052902 (2017).

26. Suo, D., Z. Jin, X. Jiang, P. Dayton and Y. Jing, “Microbubble mediated dual-frequency high intensity focused ultrasound thrombolysis: an In vitro study“, Applied Physics Letters, 110, 2, 023703 (2017).

27. Sang, S.*, Z. Yuan*, L. Zheng, E. Sun, X. Qi, R. Zhang, X. Jiang, S. Li, and J. Du, “Raman spectra of (K, Na)(Nb, Ta)O3 single crystal“, Journal of Alloys and Compounds, 704, 804-808 (2017).

28. Kim, T.*, A. Saini, J. Kim*, A. Gopalarathnam, Y. Zhu, F. L. Palmieri, C. J. Wohl, and X. Jiang, “Piezoelectric Floating Element Shear Stress Sensor for the Wind Tunnel Flow Measurement,” IEEE

Transactions on Industrial Electronics, Volume: 64, Issue: 9, pp. 7304 - 7312 (2017).

29. Wang, Z.*, K. Martin, W. Huang*, P. Dayton, X. Jiang, “Contrast enhanced superharmonic imaging for acoustic angiography using reduced form-factor lateral mode transmitters for intravascular and intracavity applications”, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 64, 2, 311-319 (2017).

30. Shu, L., T. Wang, X. Jiang and W. Huang, “Verification of the flexoelectricity in barium strontium titanate through d33 meter”, AIP Advances, 6, 125003 (2016).

31. 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“, AIP Advances, 6, 115017 (2016)

32. Shu, L., Z. Yong, X. Jiang, Z. Xie, W. Huang, “Flexoelectricity in low densification materials and its implication“, Journal of Alloys and Compounds, 695, 25, 1555-1560 (2016).

33. Lindsey, B. D.*, K. Martin, X. Jiang, and P.A. Dayton, "Adaptive windowing in contrast-enhanced

intravascular ultrasound imaging", Ultrasonics, 70, 123-135, (2016).

34. Kim, T.*, W. Huang*, S. Huang*, and X. Jiang, "Thermal Gradient Induced Flexoelectric Effects in Bulk Ba0.67Sr0.33TiO3", Applied Physics Letters, 108, 92902, (2016).

35. 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", Ultrasound in Medicine and Biology, (2016). Accepted

36. Huang, W.*, W.-Y Chang*, J. Kim*, S. Li*, S. Huang*, and X. Jiang, "A Novel Laser Ultrasound Transducer Using Candle Soot Carbon Nanoparticles", IEEE Transactions on Nanotechnology, 15(3), 395-401, (2016).

37. Kwon, S.R.*,W. Huang*, S. Zhang, F.-G. Yuan and X. Jiang, "Study on a flexoelectric microphone using

barium strontium titanate", Journal of Micromechanics and Microengineering, 26(4), 045001 (2016).

38. Huang, W.*, J. Kim*, K. Kim*, S. Bakshi*, J. Williams, P. Matthieu, E. Loboa, K. K. Shung, Q. Zhou, X. Jiang, "A Novel Ultrasound Technique for Non-Invasive Assessment of Cell Differentiation", IEEE Sensors, 16(1), 61-68, (2016).

39. Wang, Z.*, S. Li*, T. Czernuszewicz, C. Gallippe, C. Liu, X. Geng, X. Jiang, "Design, fabrication and characterization of a bi-frequency co-linear array", IEEE Transactions on Ultrasonics, Ferroelectrics, and


Frequency Control, 63(2), 266-274 (2016). 40. Li, Y., J. Ma*, K. H. Martin, M. Yu, T. Ma, P. A. Dayton, X. Jiang, K. Shung, and Q. Zhou, “An

Integrated System for Super-Harmonic Contrast-Enhanced Ultrasound Imaging: Design and Intravascular Phantom Imaging Study”, IEEE Transactions on Biomedical Engineering, (2015). (Accepted)

41. Chang, W.-Y.*, W. Huang*, J. Kim*, S. Li*, X. Jiang, "Candle Soot Nanoparticles-PDMS Composites for

Laser Ultrasound Transducers", Applied Physics Letters, 107(16), 161903, (2015). 42. Di, J.#, J. Kim#,*, Q. Hu, X. Jiang, Z. Gu, "Spatiotemporal Drug Delivery Using Laser-Generated-

Focused Ultrasound System", Journal of Controlled Release, (2015). (#Equivalent contribution)

43. Kim, T.*, J. Kim*, R. Dalmau, R. Schlesser, E. Preble, X. Jiang, "High Temperature Electromechanical Characterization of AlN Single Crystals", IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 62, 10, (2015).

44. Suo, D., S. Guo*, W. Lin, X. Jiang, J. Jing, "Thrombolysis using multi-frequency high intensity focused

ultrasound at MHz range: an in vitro study", Physics in Medicine and Biology, 60, 7403, (2015).

45. Kim, J.*, S. Li*, S. Kasoji, P. A. Dayton and X. Jiang, "Phantom evaluation of stacked-type dual-frequency 1-3 composite transducers: a feasibility study on intracavitary acoustic angiography", Ultrasonics, 63, 7-15, (2015).

46. Ma, J.*, M. Steer and X. Jiang, "An acoustic filter based on layered structure", Applied Physics Letter, 106,

111903 (2015); doi: 10.1063/1.4915100.

47. Ma, J.*, K. Martin, Y. Li, P. Dayton, K. Shung, Q. Zhou, X. Jiang, "Design factors of intravascular dual frequency transducers for super-harmonic contrast imaging and acoustic angiography", Physics in Medicine and Biology, 60(9), 3441, (2015).

48. Hsieh, B.-Y.*, J. Kim*, J. Zhu, S. Li*, X. Zhang, X. Jiang, "A laser ultrasound transducer using carbon nanofibers-polydimethylsiloxane composite thin film", Applied Physics Letters, 106(2), 021902, (2015).

49. Zhang, S., F. Li, X. Jiang, J. Kim*, J. Luo, and X. Geng, "Advantages and Challenges of Relaxor-PbTiO3 Ferroelectric Crystals for Electroacoustic Transducers-A Review," Progress in Materials Science, Volume 68, Pages 1-66, March 2015.

50. Huang, W.*, L. Shu*, S. R. Kwon*, F. G. Yuan, X. Jiang, "Fabrication and Measurement of a Flexoelectric

Micro-pyramid Composite", AIP Advances, (2014).

51. Martin, K. H., B.D. Lindsey, J. Ma*, M. Lee, S. Li*, F.S. Foster, X. Jiang, P.A. Dayton, "Dual-Frequency Transducers for Contrast Enhanced Ultrasound Imaging", Sensors, (2014).

52. Li, Y.1, L. Shu1*, W. Huang*, X. Jiang, H. Wang, "Giant Flexoelectricity in Ba0.6Sr0.4TiO3/Ni0.8Zn0.2Fe2O4 Composite", Applied Physics Letters, 105(14), 162906, 2014. (1Equivalent contribution)

53. Kwon, S.R.*, W. Huang*, L. Shu*, F.G. Yuan, J.P. Maria, X. Jiang, "Flexoelectricity in Barium Strontium Titanate Thin Film", Applied Physics Letters, 105(14), 142904 (2014).

54. Shu, L.*, F. Li, W. Huang*, X. Wei, X. Yao, X. Jiang, "Relationship between Direct and Converse Flexoelectric Coefficients", Journal of Applied Physics, 116(14), 144105, (2014).


55. Cui, Z., F. Robles Poblete, G. Cheng, S. Yao, X. Jiang, Y. Zhu, "Design and Operation of Silver Nanowire

Based Flexible and Stretchable Touch Sensors", Journal of Materials Research, Vol. 30, No. 1, pp.79-85, Jan 14, 2015.

56. Jian, X., S. Li*, W. Huang*, Y. Cui, X. Jiang, "Electromechanical response of micromachined 1-3 piezoelectric composites: Effect of etched piezo-pillar slope", Journal of Intelligent Material Systems and Structures, 2014. DOI: 10.1177/1045389X14546657

57. Huang, W.*, S. Yang, N. Zhang, F.-G. Yuan, X. Jiang, "Direct measurement of opening mode stress intensity factors using flexoelectric strain gradient sensors", Experimental Mechanics, 2014. (Accepted)

58. Jiang, X., J. Kim*, K. Kim*, "Relaxor-PT single crystal piezoelectric sensors", Crystals, 4(3), 351-376, (2014).

59. Shu, L.*, W. Huang*, S. Kwon*, Z. Wang, F. Li, X. Wei, S. Zhang, M. Lanagan, X. Yao, X. Jiang, “Converse flexoelectric coefficient f1212 in bulk Ba0.67Sr0.33TiO3”, Applied Physics Letters, 104(23), 232902 (2014).

60. Wang, M., W. Yuan, X. Jiang, Y. Jing, Z. Wang, "Disruption of microalgal cells using high-frequency focused ultrasound", Bioresource Technology, 153, 315-321 (2014).

61. Johnson, J.*, K. Kim*, S. Zhang, D. Wu, X. Jiang, "High-temperature acoustic emission sensing tests using a yttrium calcium oxyborate sensor", IEEE Trans. Ultrason. Ferroelectr. Freq. Contr., 61(5), 805-14 (2014).

62. Ma, J.*, K. Martin, P. Dayton, X. Jiang, "A preliminary engineering design of intravascular dual-frequency transducers for contrast enhanced acoustic angiography and molecular imaging", IEEE Trans. Ultrason. Ferroelectr. Freq. Contr., 61(5), 870-80 (2014). (Cover Image)

63. Jiang, X., K. Kim*, S. Zhang, J. Johnson, G. Salazar, "High-Temperature Piezoelectric Sensing", Sensors, 14(1), 144-69 (2014).

64. Di, J., J. Price, X. Gu, X. Jiang, Y. Jing, and Z. Gu, “Ultrasound-Triggered Regulation of Blood Glucose Levels Using Injectable Nano-Network”, Advanced Healthcare Materials, Vol. 3, No. 6, pp. 811-816 (2014).

65. Jiang, X., W. Huang*, S. Zhang, "Flexoelectric nano-generator: Materials, structures and devices", Nano Energy, 2(6), 1079-92 (2013).

66. Kwon, S.R.*, W. Huang*, F.-G. Yuan, X.N. Jiang, "Flexoelectric sensing using a multilayered barium

strontium titanate structure", Smart Materials and Structures, 22(11), 115017 (2013). 67. Chang, W.-Y., W. Huang*, A. Bagal, C.-H. Chang, J. Tian, P. Han, X. Jiang, "Study on dielectric and

piezoelectric properties of 0.7Pb(Mg1/3Nb2/3)O3-0.3PbTiO3 single crystal with nano-patterned composite electrode", Journal of Applied Physics, 114(11), 114103 (2013).

68. Guo, S.*, Y. Jing, and X.N. Jiang, “Temperature Rise in Tissue Ablation Using Multi-frequency

Ultrasound”, IEEE Trans. Ultrason. Ferroelectr. Freq. Contr., Vol. 60, No. 8, pp. 1699-1707 (2013). 69. Zhu, Y., J.B. Tracy, J. Dong, X. Jiang, M.G. Jones and G. Childers, "Teaching a Multidisciplinary

Nanotechnology Laboratory Course to Undergraduate Students", Journal of Nano Education, 5, 17-26 (2013).

70. Ma, J.*, S. Guo*, D. Wu, X. Geng, and X. N. Jiang, “Design, Fabrication and Characterization of a Single


Aperture 1.5 MHz / 3 MHz Dual Frequency HIFU Transducer”, IEEE Trans. Ultrason. Ferroelectr. Freq. Contr., Vol. 60, No. 7, pp. 1519-1529 (2013).

71. Yan, X., W. Huang*, S.R. Kwon*, S. Yang, X. Jiang, F.-G. Yuan, "A Sensor for the Direct Measurement

of Curvature Based on Flexoelectricity", Smart Materials and Structures, 22, 085016 (2013). 72. Huang, W.*, S. Kwon*, S. Zhang, F. Yuan and X.N. Jiang, "A Trapezoid Shape Flexoelectric

Accelerometer", J Intell Mater Syst Struct, 2013; DOI: 10.1177/1045389X13491021. 73. Xu, T., E. J. Siochi, J. H. Kang, L. Zuo, W. Zhou, X. Tang, and X.N. Jiang, “Energy Harvesting using a

PZT Ceramic Multilayer stack”, Smart Mater. Struct. 22 (2013) 065015; doi:10.1088/0964-1726/22/6/065015.

74. Xu, T., L. Tolliver*, X. Jiang, and J. Su, "A Single Crystal Lead Magnesium Niobate-Lead Titanate

Multilayer-stacked Cryogenic Flextensional Actuator", Appl Phys Lett, 102, 042906 (2013). 75. Tolliver, L.*, T. Xu, and X. Jiang. "Finite element analysis of the piezoelectric stacked-HYBATS

transducer" Smart Mater. Struct. 22 (2013) 035015; doi:10.1088/0964-1726/22/3/035015. 76. Huang, W.*, X. Yan, S. Kwon, S. Zhang, F. Yuan, and X.N. Jiang, “Flexoelectric Strain Gradient

Detection using Ba0.64Sr0.36TiO3 (BST) for Sensing”, Appl. Phys. Lett. 101, 252903 (2012); doi: 10.1063/1.4772803.

77. Kim, K.*, S. Zhang, and X.N. Jiang, “Surface Acoustic Load Sensing Using a Face-Shear PIN-PMN-PT

Single Crystal Resonator”, IEEE Trans. Ultrason. Ferroelectr. Freq. Contr. Vol. 59, pp. 2548-2554 (2012). 78. Guo, S.*, Y. Wang, N. Allbritton, and X.N. Jiang, “Ultrasound-Induced Release of Micropallets with

Cells”, Appl. Phys. Lett. 101, 163703 (2012); doi: 10.1063/1.4757648. 79. Kim, K.*, S. Zhang, and X.N. Jiang, “Surface Load Induced Electrical Impedance Shift in Relaxor-

PbTiO3 Crystal Piezoelectric Resonators”, Appl. Phys. Lett. 100, 253501 (2012); doi: 10.1063/1.4729766. 80. Kim, K.*, S. Zhang, G. Salazar*, X.N. Jiang, “Design, Fabrication and Characterization of High

Temperature Piezoelectric Vibration Sensor Using YCOB Crystals”, Sensors and Actuators: A Physical, Vol. 178, pp. 40–48 (2012).

81. Huang, W.*, K. Kim*, S. Zhang, F. Yuan and X.N. Jiang, “Scaling Effect of Flexoelectric (Ba,Sr)TiO3

Microcantilevers”, Phys. Status Solidi RRL 5, No.9, pp. 350-352 (2011) / DOI 10.1002/pssr.201105326. 82. Thein, M., A. Cheng, P. Khanna, C. Zhang, E.J. Park, D. Ahmed, C.J. Goodrich, F. Asphahani, F. Wu,

N. Smith, C. Dong, X.N. Jiang, M. Zhang, and J. Xu, “Site-specific Sonoporation of Human Melanoma Cells at the Cellular Level using High Lateral-Resolution Ultrasonic Micro-transducer Arrays”, Biosensors and Bioelectronics 27 (2011) 25-33.

83. Kim, K.*, S. Zhang, W. Huang*, F. Yu and X.N. Jiang, “YCa4O(BO3)3 (YCOB) High Temperature

Vibration Sensor”, J. Appl. Phys. 109, 126103 (2011); doi:10.1063/1.3598115. 84. Xu, T., X.N. Jiang, and J. Su, “A Piezoelectric Multilayer-Stacked Hybrid Actuation⁄Transduction

System”, Applied Physics Letters, 98, No. 24, 062124 (2011). 85. Ma, T., C. Zhang, X.N. Jiang, and G. Feng, “Thickness Shear Mode Quartz Crystal Resonators with

Optimized Elliptical Electrodes”, Chinese Phys. B 20 047701 (2011).

http://link.aip.org/link/doi/10.1063/1.4729766

http://www.sciencedirect.com/science/journal/09244247/178

http://www.sciencedirect.com/science/journal/09244247/178


86. Ma, T., C. Zhang, G. Feng, and X.N. Jiang, “Lateral Field Excitation Properties of Langasite Single

Crystal”, Chinese Phys. B 19 087701 (2010). 87. Zhang, S., X.N. Jiang, M. Lapsley, P. Moses, and T. R. Shrout, “Piezoelectric Accelerometers for

Ultrahigh Temperature Application”, Applied Physics Letters, 96, 013506 (2010) 88. Toda, R., X.N. Jiang, K. Shcheglov, and EH Yang, “Linear Microactuators and Their Control Models for

Mirror Shape Correction”, Journal of Micro and Nano-Mechatronics, 4:159–167(2009). 89. Dong, S., L. Yan, D. Viehland, X.N. Jiang, and W. Hackenberger, “A Piezoelectric Single Crystal

Traveling Wave Step Motor for Low-Temperature Applications”, Applied Physics Letters, 92, 153504 (2008).

90. Zhang, S., Y. Fei, B. Chai, E. Frantz, D. Snyder, X.N. Jiang, and T. Shrout, “ Characterization of

Piezoelectric Single Crystal Yca4O(BO3)3 for High Temperature Applications, Applied Physics Letters, 92, 202905 (2008).

91. Woody, S. C., S. T. Smith, X. N. Jiang, and P.W. Rehrig, “Performance of Single-Crystal Pb(Mg1/3Nb2/3)-

32%PbTiO3 Stacked Actuators with Application to Adaptive Structures”, Review of Scientific Instruments 76, 075112 (2005), pp.1-8.

92. Zhan, C., J. Wu, S. Yin, and X.N. Jiang, “Strong, High-Frequency, AC Electric-Field-Induced

Rhombohedra-Tetragonal Phase Transition in Pb(Mg1/3Nb2/3)-32%PbTiO3 Single Crystal”, Journal of Applied Physics 97, 074107(2005), pp.1-4.

93. Dong, S., L. Yan, N. Wang, D. Viehland, X.N. Jiang, P. Rehrig, and W.Hackenberger, “ A Small, Linear,

Piezoelectric Ultrasonic Cryomotor”, Applied Physics Letter 86, 053501 (2005), pp.1-3. 94. Jiang, X.N., C. Sun, X. Zhang, B. Xu, and Y.H. Ye, “Micro-stereolithography of lead zirconate titanate

(PZT) thick films on silicon substrate”, Sensors and Actuators: A. Physical, vol. 87, pp. 72-77 (2000). 95. Zhang, X., X. N. Jiang. And C. Sun, “Polymeric and Ceramic Microstereolithography for MEMS”,

Sensors and Actuators: A. Physical, Vol.77, No.2, pp.149-156 (1999). 96. Jiang, X. N., Z. Y. Zhou, X. Y. Huang, Y. Li, Y. Yang, and C.Y. Liu, “Micro-nozzle/diffuser Flow and

Its Application in Micro Valveless Pumps”, Sensors and Actuators: A. Physical, Vol.70/1-2, pp.81-87 (1998). 97. 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 “Research on microfluid handling systems”, Journal of the Institution of Engineers Singapore, Vol. 38, No.4, pp.7-14 (1998).

98. Zhou, Z. Y., Y. Yang, X. Y. Ye, Y. Li, and X. N. Jiang, “Micro System and Micro manufacturing

Technology”, J. Micro/Nano Science and Technology, Vol.2, No.1, pp.1-11 (1996). (in Chinese) 99. Jiang, X. N., Z. Y. Zhou, Y. Li, and X. Y. Ye, “A Novel Silicon Based Micropump”, Chinese J. of Scientific

Instrument, Vol.17, No.1, pp.322-326 (1996). (in Chinese) 100. Jiang, X. N., Z. Y. Zhou, Y. Li, X. Y. Ye, and Y. Yang, “Study on Microfluid Flow Behavior”, J. of Optics

and Precision Engineering, Vol.3, No.3, pp.51-55 (1995). (in Chinese) 101. Jiang, X. N., Z. Y. Zhou, Y. Li, and D. L. Shen, “Microfluid Measuring System and its Application in the


Microfluid Flow Behavior Research”, Chinese J. of Scientific Instrument, Vol.16 No.1, pp.346-351 (1995b) . (in Chinese)

102. Li, Y., X. N. Jiang, Z.Y. Zhou, and X. Y. Ye, “Property of Fluid Flow in Micro-channel”, J. China

Mechanical Engineering Vol.5, No.3, pp.23-25 (1994). (in Chinese) 103. Jiang X. N., Y. Li, Z. Y. Zhou, and X. Y. Ye, “Micro-actuation Technology”, J. of China Instrumentation,

No.2, pp10-14 (1993). (in Chinese) 104. Zhou, Z. Y., X. N. Jiang, Y. Li, and X. Y. Ye, “The Development of Micromachine”, J. of China

Instrumentation, No.1, pp14-17 (1993). (in Chinese)

Refereed Encyclopedia Entries/Book Chapters /Books 1. Jiang, X., S. Li, J. Kim, J. Ma, W. Huang, and X. Jian, “High frequency piezo-composite micromachined

ultrasound transducer array technology for biomedical imaging”, ASME Press, New York, 2017 (ISBN: 9780791860441).

2. Huang, W.*, F.G. Yuan, and X. Jiang, Chapter : “Flexoelectric Effect, Materials, and Structures”, Chapter 5 in a book titled “Structural Health Monitoring (SHM) in Aerospace Structures”, edited by Fuh-Gwo Yuan, Woodhead Publishing, pp.119-148, 2016. (ISBN: 9780081001486)

3. Huang, W.*, F.G. Yuan, and X. Jiang, Chapter : “Flexoelectric Strain Gradient Sensing”, Chapter 6 in a book titled “Structural Health Monitoring (SHM) in Aerospace Structures”, edited by Fuh-Gwo Yuan, Woodhead Publishing, pp. 149-174, 2016. (ISBN: 9780081001486)

4. Zhang, S., F. Li, J. Li, W. Huang*, and X.N. Jiang, Chapter: “Cryogenic Piezoelectric Materials and transducers” in a book edited by Yoseph Bar-Cohen, 2016.

5. W.S. Hackenberger, J. Luo, X.N. Jiang, K. Snook, S. Zhang, and T. Shrout, “Recent Development and Applications of Relaxor Piezoelectric Crystals”, Chapter 3 in Part 1 of Book Edited by Z.G. Ye, Woodhead Publishing Limited, Cambridge, England, 2008. (ISBN 1 84569 186 5)

6. V.K. Varadan, X.N. Jiang, and V.V. Varadan, “Microstereolithography and other Fabrication Techniques for 3D MEMS”, John Wiley & Sons Ltd, England, 2001. (ISBN 0 471 52185 X)

7. X.N. Jiang and X. Zhang, Chapter: “Micromanufacturing” in the book titled “Industrial Engineering Applications and Practices—User’s Encyclopedia”, 14 pages, International Journal of Industrial Engineering, 1999 (ISBN 0-9654599-0-X).

Refereed Conference Papers Published (*: student under advisory of Dr. Jiang) 1. Kim, H.*, W. Chang*, T. Kim*, S. Huang*, and X. Jiang, “Stress Measurement of a Pressurized Vessel

Using Candle Soot Nanocomposite Based Photoacoustic Excitation”, SPIE Smart Structures and NDE, March 2019, Denver, CO.

2. Kim, H.*, T. Kim*, D. Morrow*, and X. Jiang, “Stress Sensing Technique via Subsurface Longitudinal Wave with Composite Transducer”, 2019 ANS NPIC&HMIT, Orlando, FL, Feb. 2019.

3. Kim, H.*, J. Kim, H. Wu*, and X. Jiang, “Design of Forward-Looking Intravascular Ultrasonic Transducer for Microbubble-Mediated Thrombolysis”, ASME IMECE2018-86464, Pittsburgh, PA, Nov. 2018.


4. Zhang, B.*, H. Wu*, Y. Gao, and X. Jiang, “Ultrasound Thrombolysis with Magnetic Microbubbles Under a Rotational Magnetic Field”, IEEE NMDC 2018, Portland, OR, Oct. 2018.

5. Wu, H.*, M. Hossain, C. Gallippi, and X, Jiang, “A row-column array for ultrasound-based tissue anisotropy measurement”, 2018 IEEE Ultrasonics Symposium, Oct. 2018, Kobe, Japan.

6. Kim, H.*, H. Wu*, J. Kim*, and X. Jiang, “Miniaturized Sub-Megahertz Focused Ultrasound Transducer Composed of Multilayer Hard PZT Ceramics”, 2018 IEEE Ultrasonics Symposium, Oct. 2018, Kobe, Japan.

7. Chang, W.* and X. Jiang, “A Fiber Optic Laser Ultrasound Transducer using Carbon Nanoparticles/PDMS Composites”, IEEE Nano Conference, July 2018, Cork, Ireland.

8. Chang, W.* and X. Jiang, “A Fiber Optic Laser Ultrasound Transducer using Carbon Nanoparticles/PDMS Composites”, IEEE Nano Conference, July 2018, Cork, Ireland.

9. Berik, P., W. Chang*, and X. Jiang, “Piezoelectric torsional actuation in d36 shear-mode PMN-PT single crystals”, SPIE Smart Structures and NDE, March 2018, Denver, CO.

10. Kim, T.*, Z. Cui, Y. Zhu, and X. Jiang, “Flexible Piezo-Composite Ultrasound Transducers for Biomedical Applications”, SPIE Smart Structures and NDE, March 2018, Denver, CO.

11. Kim, T.*, H. Kim*, and X. Jiang, “High Temperature Transducer using Aluminum Nitride Single Crystal

for Laser Ultrasound Detection”, SPIE Smart Structures and NDE, March 2018, Denver, CO.

12. Kim, J.*, H. Wu*, and X. Jiang, “Miniaturized Focused Ultrasound Transducers for Intravascular Therapies”, ASME IMECE2017-72426, Tampa, FL, Nov. 2017.

13. Kim, J.*, B. D. Lindsey, W. Chang*, H. Wu*, P, A. Dayton, and X. Jiang, “Development of Forward-Looking Ultrasound Transducers for Microbubble-Aided Intravascular Ultrasound-Enhanced Thrombolysis”, IEEE Ultrasonics Symposium, Washington DC, Sept. 2017.

14. Kim, J.*, W. Chang*, H. Wu*, P. A. Dayton, and X. Jiang, “Optical Fiber Laser-Generated-Focused-

Ultrasound Transducers for Intravascular Therapies”, IEEE Ultrasonics Symposium, Washington DC, Sept. 2017.

15. Wu, H.*, S. Li*, S. Kasoji, P. Dayton, and X. Jiang, “Micromachined 1-3 Composite Dual Frequency

IVUS Array for Contrast Enhanced Intravascular Ultrasound Imaging”, IEEE Ultrasonics Symposium, Washington DC, Sept. 2017.

16. Chang, W.*, A. Xu Zhang, J. Kim*, W. Huang, C. Chang, and X. Jiang, “Photoacoustic Transduction

Efficiency Evaluation of Candle Soot Nanoparticles/PDMS Composites”, IEEE Nano Conference, July 2017, Pittsburgh, PA.

17. Kim, T.*, J. Kim*, and X. Jiang, “High temperature transducer using aluminum nitride single crystal for laser ultrasound detection”, SPIE Smart Structures and NDE, March 2017, Portland, OR.

18. Kim, J.*, B. D. Lindsey*, S. Li*, P. A. Dayton, and X. Jiang, “Dual-Frequency Transducer with a Wideband PVDF Receiver for Contrast-Enhanced, Adjustable Harmonic Imaging”, SPIE Smart Structures and NDE, March 2017, Portland, OR.


19. Lindsey, B.*, P. Dayton, J. Kim*, and X. Jiang, “A dual-frequency endoscopic transducer for imaging vascular invasion in pancreatic cancer”, IEEE Ultrasonics Symposium, Tours, France, Sept. 2016.

20. Lindsey, B.*, X. Jiang, P. A. Dayton, “Adaptive windowing in mechanically-steered intravascular ultrasound imaging: ex vivo and in vivo studies with contrast enhancement”, IEEE Ultrasonics Symposium, Tours, France, Sept. 2016.

21. Li, S.*, J. Kim*, Z. Wang*, S. Kasoji, B. Lindsey*, P. Dayton, and X. Jiang, “A dual-frequency co-linear

array for prostate acoustic angiography”, IEEE Ultrasonics Symposium, Tours, France, Sept. 2016.

22. Kim, J.*, W. Chang*, B. Lindsey*, P. Dayton, X. Dai, J. Stavas, and X. Jiang, “Laser-generated-focused ultrasound transducers for microbubble-mediated, dual-excitation sonothrombolysis”, IEEE Ultrasonics Symposium, Tours, France, Sept. 2016.

23. Kim, T.*, A. Saini, J. Kim*, A. Gopalarathnam, Y.Zhu, F. L. Palmieri, C. J. Wohl, and X. Jiang, “A piezoelectric shear stress sensor”, SPIE Smart Structures and NDE, March 2016, Las Vegas, NE.

24. Wang, Z.*, T. J Czernuszewicz, C. M. Gallippi and X. Jiang, “Dual frequency IVUS transducer for acoustic radiation force impulse imaging (ARFI)”, 2015 IEEE Ultrasonics Symposium, Oct. 2015, Taipei, Taiwan.

25. Wang, Z.*, W. Huang*, K. H. Martin, P. A. Dayton and X. Jiang “Dual frequency IVUS array for

contrast enhanced intravascular ultrasound imaging”, 2015 IEEE Ultrasonics Symposium, Oct. 2015, Taipei, Taiwan.

26. Li, S.*, J. Kim*, S. Kasoji, P. A. Dayton and X. Jiang, “3/15 MHz Dual-layer Co-Linear Array for

Transrectal Acoustic Angiography”, 2015 IEEE Ultrasonics Symposium, Oct. 2015, Taipei, Taiwan.

27. Li, S.*, Z. Wang*, J. Kim*, W. Huang*, J. Tian, P. Han, C. Zhang and X. Jiang, “A PMN-PT

Micromachined 1-3 Composite IVUS Ultrasound Array”, 2015 IEEE Ultrasonics Symposium, Oct. 2015, Taipei, Taiwan.

28. Wang, Z.*, K. H. Martin, P. A. Dayton and X. Jiang, “A dual frequency IVUS transducer with a lateral

mode transmitter for contrast enhanced intravascular ultrasound imaging”, ASME IMECE2015-51141, Houston, TX, Nov. 2015.

29. Li, S.*, W. Huang*, and X. Jiang, “40-MHz Micromachined PMN-PT Composite Ultrasound Array for

Medical Imaging”, ASME IMECE2015-52540, Houston, TX, Nov. 2015.

30. Kim, J.*, S. Li*, S. Kasoji, P. A. Dayton, X. Jiang, “Dual-frequency Super Harmonic Imaging Piezoelectric Transducers for Transrectal Ultrasound”, SPIE Smart Structures and NDE, 2015. San Diego, CA.

31. Wang, Z.*, S. Li*, R. Liu, X. Geng, and X.N. Jiang, “A bi-frequency co-linear array transducer for medical ultrasound imaging”, ASME IMECE 2014-38871, Montreal, Canada, Nov. 2014.

32. Guo, S.* and X.N. Jiang, “Enhancement of ultrasonic cavitation yield by dual frequency sonication”, ASME IMECE2014-39641, Montreal, Canada, Nov. 2014.

33. Ma, J.*, S. Li*, Z. Wang*, and X.N. Jiang, “Anti-matching design for wave isolation in dual frequency

transducer for intravascular super-harmonic imaging”, ASME IMECE2014-38844, Montreal, Canada, Nov. 2014.


34. Wang, Z.*, S. Li*, R. Liu, X. Geng, and X.N. Jiang, “A bi-frequency 7.5MHz/15MHz co-linear array”,

IEEE Ultrasonics Symposium, Chicago, IL, Sept. 2014.

35. Guo, S.*, A. Smith, L. Phillips, P. Dayton, and X.N. Jiang, “Enhancement of ultrasonic cavitation by dual-frequency sonication: experimental and theoretical assessment”, IEEE Ultrasonics Symposium, Chicago, IL, Sept. 2014.

36. Li, S.*, J. Tian, P. Han, X.N. Jiang, “20 MHz/40 MHz Dual-layer Micromachined Composite

Transducer for Tissue Harmonic Imaging”, IEEE Ultrasonics Symposium, Chicago, IL, Sept. 2014.

37. Wang, Z.*, J. Ma*, K. Martin, P. Dayton, and X.N. Jiang, “An array transmitter for contrast enhanced intravascular ultrasound imaging”, IEEE Ultrasonics Symposium, Chicago, IL, Sept. 2014.

38. Ma, J.*, K. Martin, Y. Li, P. Dayton, Q. Zhou, K. Shung, and X.N. Jiang, “Dual frequency

transducers for super harmonic intravascular ultrasound imaging”, IEEE Ultrasonics Symposium, Chicago, IL, Sept. 2014.

39. Kim, K.*, J. Johnson*, and X.N. Jiang, “High temperature (> 1000 °C) piezoelectric sensors for nuclear applications”, Proc. ICAPP 2014, Charlotte, NC, April 6-9, 2014.

40. Johnson, J.*, K. Kim*, S. Zhang, and X.N. Jiang, “Crack Propagation Testing Using an YCOB Acoustic Emission Sensor”, SPIE Smart Structures and NDE, 2014. San Diego, CA.

41. Huang, W.*, S. Yang, N. Zhang, F.G. Yuan, and X.N. Jiang, “Cracks Monitoring and Characterization using Ba0.64Sr0.36TiO3 Flexoelectric Strain Gradient Sensors”, SPIE Smart Structures and NDE, 2014. San Diego, CA.

42. Kwon, S.*, W. Huang*, S. Zhang, F.G. Yuan, and X.N. Jiang, “A new type of microphone using flexoelectric barium strontium titanate”, SPIE Smart Structures and NDE, 2014. San Diego, CA.

43. Kwon, S.*, W. Huang*, B. Rogers, J.P. Maria, F.G. Yuan, S. Zhang, and X.N. Jiang, “Characterization of flexoelectric barium strontium titanate thin film”, 16th US-Japan Seminar on Dielectric and Piezoelectric Materials, Raleigh, NC, Nov. 2-6, 2013.

44. Kim, K.* and X.N. Jiang, “Acoustic Wave Microsensor Array for Tactile Sensing”, ASME IMECE

2013-66098, San Diego, CA, Nov. 15-21, 2013.

45. Tolliver, L.*, X.N. Jiang, and T. Xu, “Piezoelectric Actuators with Active and Passive Frames”, ASME 2013 Conference on Smart Materials, Adaptive Structures and Intelligent Systems, SMASIS2013, Snowbird, UT Sept. 16-18, 2013.

46. Li, S.*, W. Huang*, X. Jian, Y. Cui, and X.N. Jiang, “A Dual-layer Micromachined PMN-PT 1-3 Composite Transducer for Broadband Ultrasound Imaging”, IEEE Ultrasonic Symposiums, Prague, Czech, July 2013.

47. Wang, Z.*, S. Li*, X.N. Jiang, R. Liu and X. Geng, “ Design, fabrication and characterization of a bi-frequency co-linear array (7.5MHz/15MHz)”, IEEE Ultrasonic Symposiums, Prague, Czech, July 2013.

48. Ma, J.*, X.N. Jiang, K. Martin, and P. Dayton, “Small Aperture, Dual Frequency Ultrasound Transducers for Intravascular Contrast Imaging”, IEEE Ultrasonic Symposiums, Prague, Czech, July 2013.


49. Johnson, J.*, K. Kim*, S. Zhang, D. Wu, and X.N. Jiang, “High-temperature (> 1000 C) acoustic emission sensor”, Proc. SPIE Smart Materials and Structures and NDE, 8694, 869428, pp.1-12 (2013).

50. Yan, X., W. Huang*, X.N. Jiang and F. Yuan, “Design of a Curvature Sensor using a Flexoelectric

Materials”, SPIE Smart Structures and NDE, 2013. San Diego, CA.

51. Huang, W. *, S. Kwon*, S. Zhang, F. G. Yuan and X.N. Jiang, “A Flexoelectric Micro-accelerometer”,

ASME IMECE2012-89814, Houston, TX, Nov. 2012.

52. Kim, K.*, S. Zhang, and X.N. Jiang, “Face-shear Mode Ultrasonic Tactile Sensor Array”, IEEE Ultrasonic Symposiums, Dresden, Germany, October 2012.

53. Salazar, G.*, K. Kim*, X.N. Jiang, and S. Zhang, “Piezoelectric Accelerometer for High Temperature

(1300°C) Sensing”, Proc. SPIE 8347, 83471K (2012); http://dx.doi.org/10.1117/12.917104 .

54. Huang, W*., K. Kim*, S. Zhang, F. Yuan and X.N. Jiang, “ Flexoelectric Strain Gradient Sensing Using Microcantilevers”, International Symposium on Innovation & Sustainability of Structures in Civil Engineering, Xiamen University, China, Oct. 28-30, 2011.

55. Huang, W.*, X.N. Jiang, and F.G. Yuan, “Flexoelectric Materials and Structures for M/NEMS”, ASME

IMECE2011-64520, Denver, Nov. 2011.

56. Bakshi, S.*, S. Guo*, and X.N. Jiang, “Multi-frequency Focused Ultrasound for Tissue Ablation”, ASME IMECE2011-64076, Denver, Nov. 2011.

57. Xu, T., E. J. Siochi, J. H. Kang, L. Zuo, W. Zhou, X. Tang, and X.N. Jiang, “A Piezoelectric PZT

Ceramic Multilayer Stack for Energy Harvesting Under Dynamic Forces,” ASME DETC2011-47720, 2011.

58. Guo, S.*, X.N. Jiang, and W. Lin, “Tissue Ablation Using Multi-frequency Focused Ultrasound”, IEEE

Ultrasonic Symposiums, Orlando, October, 2011.

59. Bakshi, S. *, J. Williams, X.N. Jiang, and E. Loboa, “Cell Characterization Using High Frequency Ultrasound”, IEEE Ultrasonic Symposiums, Orlando, October, 2011.

60. Kim, K.*, X.N. Jiang, and S. Zhang, “A High Temperature Piezoelectric Sensor for Structure Health Monitoring”, Proc. SPIE Smart Materials and Structures and NDE, 7983, 79832V (2011).

61. Chen, C., J. Liu, Y. Luo, X. Han, J. Liao, X.N. Jiang, and F.G. Yuan, “Fabrication of 1-3 Piezo-

Composites Using New Micro PZT Fibers”, Proc. SPIE Smart Materials and Structures and NDE, 7983, 79833M (2011).

62. Zheng, F., C. Hu, L. Zhang, K. Snook, Y. Liang, S. Hackenberger, R. Liu, X. Geng, X.N. Jiang and K. Shung, “Development of a C-Scan Phased Array Ultrasonic Imaging System Using a 64-element 35MHz Transducer”, Proc. SPIE Smart Materials and Structures and NDE, 7983, 79833E (2011).

63. Hu, C., F. Zheng, P. Sun, L. Zhang, XN. Jiang, K. Snook, W. Hackenberger, R. Liu, X. Geng, and K. Shung, “Development of a Digital 35 MHz, 64-channel Phased Ultrasound Array Imaging System for NDT Applications”, Proc. IEEE Ultrasonics Symposium, pp.1829-1832, 2010.


64. 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," 2010 High Temperature Electronics Conference (HiTEC), Albuquerque, NM, May 10-14, 2010.

65. Jiang, X.N., K. Snook, R. Liu , X. Geng, and W. Hackenberger, “Fabrication and Characterization of High Frequency Phased Arrays for NDE Imaging”, Proc. SPIE Smart Materials and Structures and NDE, 7649-30 (2010).

66. Jiang, X.N., W. Cook, and W.S. Hackenberger, “Cryogenic Piezoelectric Actuators”, Proc. SPIE Optical Engineering + Applications, Vol. 7439, 74390Z (2009).

67. Jiang, X.N., K. Snook, C. Hu, X. Geng, R. Liu, J. Welter, K. Shung, and W. Hackenberger, “A 35 MHz PCMUT Phased Array for NDE Ultrasound”, Proc. SPIE Smart Materials and Structures and NDE, Vol. 7294(1): 729403-8 (2009).

68. Jiang, X.N., K. Snook, T. Walker, A. Portune, R. Haber, X. Geng, J. Welter, and W.S. Hackenberger, " Single Crystal Piezoelectric Composite Transducers for Advanced NDE applications”, Proc. SPIE Smart Materials and Structures and NDE, Vol. 6934, 6934-12 (2008).

69. Jiang, X.N., K. Snook, A. Cheng, W.S, Hackenberger, and X. Geng, “Microamchined PMN-PT Single Crystal Composite Transducers: 15 – 75 MHz PCMUT”, Proc. IEEE Ultrasonics Symposium, pp.164-167, 2008.

70. Yuan, J., S. Rhee, and X.N. Jiang, “60 MHz PMN-PT Based 1-3 Composite Transducer for IVUS Imaging”, Proc. IEEE Ultrasonics Symposium, pp.682-685, 2008.

71. Zhang, S., H. J. Lee, X.N. Jiang, J. Luo, G. Gerber, and T. Shrout, “Frequency Dependent Properties of High Permittivity PMNT Piezoelectric for Ultrasonic Transducer Applications”, Proc. IEEE Ultrasonics Symposium, pp.265-268, 2008.

72. Jiang, X.N., K. Snook, W.S, Hackenberger, A. Cheng, and J. Xu, “Piezoelectric Transducers using Micromachined Bulk Piezo Substrates”, Proc. IEEE Sensors, pp.573-576, 2008.

73. Jiang, X.N., K. Snook, W.S. Hackenberger, and M. Shafer, "PC-MUT Arrays for Ophthalmologic Ultrasound", Proc. IEEE Ultrasonics Symposium, pp.309-312, 2007.

74. Snook, K., X. Geng, W.S. Hackenberger, X.N. Jiang, A. Winder, F. Forsberg, "Optimization of Single Crystal Composite Arrays for Harmonic Imaging", Proc. IEEE Ultrasonics Symposium, pp.292-295, 2007.

75. Jiang, X.N., K. Snook, and W.S. Hackenberger, “Single Crystal Piezoelectric Composites for Advanced NDE Ultrasound”, Proc. SPIE Smart Materials and Structures, Vol. 6531, 65310F, 2007.

76. Jiang, X.N., J.R. Yuan, A. Cheng, K. Snook, and W.S. Hackenberger, “Micro/Nano Piezoelectric Composites for Advanced M/NEMS”, Proc. ASME MicroNanoChina, 20070110-13, 2007.

77. Jiang, X.N., P.W. Rehrig, J. Luo, W.S. Hackenberger, S.J. Zhang, and T. Shrout, “Low-Voltage Single

Crystal Actuators”, Proc. SPIE Smart Materials and Structures, Vol. 6170, 61700G, 2006.

78. 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, “Micromachined PMN-PT Single Crystal for Advanced Transducers”, Technical Digest of Solid-State Sensors, Actuators, and Microsystems Workshop, pp. 384-387, 2006.


79. 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, “Microfabrication of Piezoelectric Composite Ultrasound Transducers (PC-MUT)”, Proc. IEEE Ultrasonics Symposium, pp.918-921, 2006.

80. Yuan, J., X.N. Jiang, P. Cao, K. Snook, P. Rehrig and W. Hackenberger, “High Frequency Piezo Composites Microfabricated Ultrasound Transducers for Intravascular Imaging”, Proc. IEEE Ultrasonics Symp., pp.264-268, 2006.

81. Xu, T.B., J. Su, X.N. Jiang, P. W. Rehrig

, S. Zhang, T. R. Shrout, and Q. Zhang, “Effect of bending

stiffness of the electroactive polymer element on the performance of a Hybrid Actuator System (HYBAS),” Proceedings of SPIE Vol. 6168, pp. 61682H-1-61682H-9, 2006.

82. Xu, T.B., J. Su, X.N. Jiang, P. W. Rehrig

,, and W. S. Hackenberger, “High Load Capable Piezoelectric

Single Crystal Actuators,” Mater. Res. Soc. Symp. Proc., Vol. 888, 0888-V08-02.1, 2006.

83. Jiang, X.N., P.W. Rehrig, W.S. Hackenberger, and T. R. Shrout, “Cryogenic Actuators and Motors Using Single Crystal Piezoelectrics”, Advances in Cryogenic Engineering, Vol. 51B, pp. 1783-1789, 2005.

84. 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, “Single Crystal Piezoelectric Actuators for Tunable HTS Filters”, Advances in Cryogenic Engineering, Vol. 51A, pp. 928-935, 2005.

85. Snook, K., P. W. Rehrig, X.N. Jiang, W. S. Hackenberger, R. J. Meyer, and D. Markley, “Advanced Piezoelectric Single Crystal Based Transducers for Naval Sonar Applications”, Proc. IEEE Ultrasonic Symposium, pp.1065-1068, 2005.

86. Jiang, X.N., P. W. Rehrig, W. S. Hackenberger, E. Smith, S. Dong, D. Viehland, J. Moore, B. Patrick,

“Advanced Piezoelectric Single Crystal Based Actuators”, Proc. SPIE Smart Materials and Structures, Vol. 5761, pp.253-262, 2005.

87. Rehrig, P.W., W.S. Hackenberger, X.N. Jiang, R.J. Meyer, “Advanced Piezoelectric Single-Crystal-Based Transducers for Naval Sonar Applications”, Proc. SPIE Smart Materials and Structures, Vol. 5761, pp.263-271, 2005.

88. Jiang, X.N., P.W. Rehrig, W.S. Hackenberger, J. Moore, S. Chodimella and B. Patrick, “Single Crystal Piezoelectric actuators for advanced deformable mirrors”, Proc. ASME International Mechanical Engineering Congress and Exposition, Vol.3, IMECE-60504, 2004.

89. Jiang, X.N., S. Dong, P.W. Rehrig, W.S. Hackenberger, D. Viehland, “Single Crystal Ultrasonic Motor for Cryogenic Actuations”, Proc. IEEE UFFC, pp. 1314-1317, 2004.

90. Hackenberger, W.S., X.N.Jiang, X.Geng, A. Winder, and F. Forsberg, “Broad Band Single Crystal Transducer for Contrast Agent Harmonic Imaging” (II), Proc. IEEE UFFC, Montreal, pp. 1-30-1033, 2004.

91. Hackenberger, W.S., X.N. Jiang, X. Geng, A. Winder, and F. Forsberg, “Broadband Single Crystal Transducer for Contrast Agent Harmonic Imaging” (I), Proc. IEEE Ultrasonics Symposium, pp. 778-781, 2003.


92. Jiang, X.N., P.W. Rehrig, W. Hackenberger, and T. Shrout, “Large Stroke and Low Profile Single Crystal Piezoelectric Actuators”, SPIE Proceeding Vol.5053, pp.436-444, 2003.

93. Rehrig, P.W., W.S. Hackenberger, X.N.Jiang, R. J. Meyer, and X. Geng, “High-performance Tonpilz Transducers Utilizing d32-cut Piezoelectric Single Crystals”, SPIE Proceedings, Vol. 5053, pp.445-452, 2003.

94. Tutwiler, T.R., J.P. Titter, T.A. Ritter, K.K. Shung, W.S. Hackenberger, X.N.Jiang, and P.W. Rehrig, “Precision Mechanically Scanned HF Ultrasound Arrays”, Proc. IEEE Ultrasonics Symposium, pp.863-876, 2003.

95. Rehrig, P.W., W. Hackenberger, X.N. Jiang, R. Meyer, and X. Geng, “Naval Device Applications of Relaxor Piezoelectric Single Crystals”, Proc. IEEE Proc. Ultrasonics Symposium, pp.733-737, 2002.

96. Jiang, X.N., “Microfabrications for Ceramic MEMS”, Technical Digest of Berkeley MEMS, pp.45-46, 2001.

97. Sun, C., X.N. Jiang, and X. Zhang, “Experimental and numerical study on micro-stereolithography of ceramics”, ASME MEMS-Vol. 1, pp.339-345, 1999.

98. Jiang, X.N., C. Sun and X. Zhang, “Micro-stereolithography of 3D complex ceramic microstructures and PZT thick films on Si substrate”, ASME MEMS-Vol.1, pp.67-73, 1999.

99. Zhang, X., X.N. Jiang, and C. Sun, “Micro-scale free surface rapid prototyping”, Technical Digest of CLEO’99, Baltimore, Maryland, US, May 23-28, pp.513-514, 1999.

100. Zhang, X., X. N. Jiang, and C. Sun, “Microstereolithography for MEMS”, ASME DSC, Vol.66, pp.3-9, 1998.

101. Jiang, X.N., Z. Y. Zhou, X. Y. Huang, and C. Y. Liu, “Laminar Flow Through Microchannels Used for Microscale Cooling Systems”, Proc. of IEEE 1st Electronic Packaging Technology Conference, pp. 119-122, 1997.

102. Jiang, X.N., Z. Y. Zhou, Y. Li, Y. Yang, X.Y. Ye, X. Y. Huang, and C. Y. Liu, “Microdynamics for Reciprocating Micropumps”, International Conference on Micromechatronics for Information and Precision Equipment, pp. 698-701, 1997.

103. Jiang, X.N., Z. Y. Zhou, Y. Li, Y. Yang, X. Y. Huang, and C. Y. Liu, “Experiments and Analysis for Micro-Nozzle/Diffuser Flow and micro Valveless Pumps”, Technical Digest of Transducers’97, pp369-372, 1997.

104. Yang, Y., Z.Y. Zhou, X.Y. Ye, and X.N. Jiang, “A Bimetallic Thermally Actuated Micropump”, ASME DSC-Vol.59, pp.351-354, 1996.

105. Jiang, X.N., Z. Y. Zhou, Y. Li, Y. Yang, and X. Y. Ye, “Flow Behavior Through Microfluidic Valves”, ASME DSC-Vol.59, pp.221-224, 1996.

106. Jiang, X.N., Z. Y. Zhou, Y. Li, X. Y. Ye, and Y. Yang, “Flow Modeling Analysis for Microvalves and Micropumps”, The 3rd Asian/Pacific International Symposium on Instrumentation, Measurement and Automatic Control, Beijing, China, Aug.20-23, pp.95-98, 1996.


107. Jiang, X.N., Z. Y. Zhou, J. Yao, Y. Li, and X. Y. Ye, “Microfluid Flow in Microchannel”, Tansducers'95, Vol.2 pp317-320, 1995.

PATENTS AWARDED

1. Xu, T., E. Siochi, L. Zuo, X. Jiang, and J. Kang, “Multistage Force Amplification of Piezoelectric Stacks”,

US Patent #9,048,759 B2, 2015.

2. Xu, T., X.N. Jiang, and J. Su, “Piezoelectric Multilayer-Stacked Hybrid Actuation/Transduction System”, US Patent # 8,680,749 B2, 2014.

3. Xu, T., J. Su, and X.N. Jiang, “Advanced Modified High Performance Synthetic Jet Actuator with Curved Chamber”, US Patent #8,662,412 B2, 2014.

4. Xu, T., X.N. Jiang, and J. Su, “Advanced High Performance Horizontal Piezoelectric Hybrid Synthetic Jet Actuator”, US Patent # 8,235,309, 2012

5. Jiang, X.N., W.S. Hackenberger, and K. Snook, “Micromachined Piezoelectric Ultrasound Transducer Arrays”, US Patent # 8,148,877 B2, 2012.

6. Xu, T., X.N. Jiang, and J. Su, “Advanced High Performance Vertical Hybrid Synthetic Jet Actuator,” US Patent # 8,052,069, 2011.

7. Jiang, X.N., W.S. Hackenberger, and K. Snook, “Micromachined Piezoelectric Ultrasound Transducer Arrays”, US Patent # 8008842, 2011.

8. Rehrig, P., X.N. Jiang, W. Hackenberger, J. Yuan and R. Romley, “Micromachined Imaging Transducer”, US Patent # 7622853, 2009.

9. Xu, T., X.N. Jiang, J. Su, P. Rehrig, and W. Hackenberger, "Hybrid Piezoelectric Energy Harvesting Transducer System" US Patent # 7446459, 2008.

PATENTS FILED 1. Jiang, X., T. Kim*, and Y. Zhu, “Flexible piezo-composite sensors and transducers”, US Patent Appl.

No. 62/813,896; Filed March 05, 2019 .

2. Jiang, X. and B. Zhang*, “System and methods for ultrasound induced thrombolysis with magnetic microbubbles and a rotational magnetic field”, US Patent Appl. No. 62/744,784Y; Filed Oct. 12, 2018.

3. Jiang, X., J. Kim*, J. Ma*, and X. Dai, “Ultrasound transducers and arrays for intravascular thrombolysis”, US Patent Appl. No. PCT/US2017/042372, Filed July 14, 2017; International application WO2018/014021 A3, Jan. 2018.

4. Jiang, X. and J. Kim*, “Hybrid Ultrasound Transducer and Array for Intravascular Thrombolysis”, US Patent Appl. No. 62/362,687; Filed July 15, 2016.

5. Jiang, X., T. Kim*, and J. Kim* , “Ultrasonic Flowmeter for Intravenous Flow Rate Measurement”, 62/723,287; Filing Date: August 27, 2018.

6. Dayton, P. and X.N. Jiang, “Catheter Device Implementing High Frequency, Contrast Imaging

Ultrasound Transducer, and Associated Method”, US Patent Application # 61/654,335, June 2012; PCT/US2013/043002, May 2013.


SERVICES

Professional services on campus:

Member, BME PTR committee (2018/2019)

Member, MAE PTR committee (2018/2019)

Member, MAE RPT committee (2018)

Chair, Advanced Manufacturing Faculty Search Committee (2017-2018)

Corporate advisory board member, MAE department, NC State, 2016-2017

Advisory Committee member, NC State Nanofabrication Facility, 2015-2017.

NC State University Standing Committee on Extension, Engagement and Economic Development: 2015- 2017.

Packard Foundation: Fellowship for Science and Engineering internal review panel, 2014.

Member, Departmental faculty recruiting committee (electromechanical), 2013.

Judge for MAE graduate poster competition, 2012, 2013.

NC State internal NSF MRI panel: 2010, 2011, 2012.

Member, Departmental faculty recruiting committee (acoustic/vibro), 2011.

Member, Departmental Public Relationship Committee, 2010-2017.

Professional services off campus: Invited Talks:

Invited Speaker at University of Houston, Houston, TX, Nov. 2018.

Invited Speaker at Penn State, Harrisburg, PA, Oct. 2018.

Invited Speaker at IEEE NMDC 2018, Portland, Oregon, Oct. 2018.

Invited Speaker at Suzhou Institute of Biomedical Engineering Technology, July 12, 2018.

Invited Speaker at International Symposium in Precision Engineering, Hefei, China, July 9-11, 2018.

Invited Speaker at Beijing Institute of Nanoenergy and Nanosystems (BINN), CAS, July 2, 2018.

Invited Speaker at Johns Hopkins University, Baltimore, MD, December 6, 2017.

Invited speaker at University of Dundee, Dundee, Scotland, July 18, 2017.

Invited speaker at Imperial College London, London, UK, July 14. 2017.

Invited speaker at University of Edinburgh, Edinburgh, Scotland, July 13. 2017.

Invited speaker at University of Glasgow, Glasgow, Scotland, July 12. 2017

Invited speaker at Beihang University, Beijing, China, June 2, 2017.

“Novel piezoelectric sensors, actuators and transducers: design, fabrication, characterization and applications”, 2017 IEEE ISAF Tutorial Lecture, Atlanta, GA, May 7, 2017. (Invited)

“Relaxor-PT crystals with engineered domains”, NSF Center for Dielectrics and Piezoelectrics (NCSU&PSU), 2017 Spring Meeting at Penn State, University Park, PA, April 26, 2017. (Invited)


Invited speaker at BME program annual meeting, ShenZhen University, Shenzhen, China, Dec. 10, 2016.

Invited speaker at Southern Medical University, Guangzhou, China, Dec. 5, 2016.

Invited speaker at 973 annual review meeting of relaxor single crystals, Shenzhen, China, Dec. 3, 2016.

Invited speaker at the City University of Hong Kong, Hong Kong, Nov. 30, 2016.

Invited speaker at Shandong University, Jinan, China, Oct. 9, 2016.

Invited speaker at The Hong Kong Polytechnic University, Hong Kong, Oct. 05, 2016.

Invited speaker at Nanjing University, Nanjing, China, Sept. 29, 2016.

Invited speaker at Suzhou Institute of Biomedical Engineering and Technology, Chinese Academy of Sciences, Suzhou, July 28, 2016.

Invited speaker, Academic Seminar on Novel Medical Imaging Techniques, Shenzhen Institutes of Advanced Technology, Chinese Academy of Sciences, Shenzhen, China, July 25, 2016.

Invited speaker at Huazhong University of Science and Technology, Wuhan, China, July 22, 2016.

Invited speaker at Taiyuan University of Technology, Taiyuan, July 20, 2016.

Invited speaker at North University of China, Taiyuan, China, July 19, 2016.

Invited speaker at the Nonlinear Acoustics Workshop, Taiyuan, China, July 19-21, 2016.

Invited speaker at the 13th Annual Ultrasonic Transducer Engineering Conference May 16-17, 2016, Los Angeles, CA.

Plenary speaker at The 2015 Symposium on Piezoelectricity, Acoustic Waves, and Device Applications (SPAWDA 2015), Oct.20-Nov.2, 2015, Jinan, China.

Invited speaker at Suzhou Institute of Biomedical Engineering and Technology (Sinica), Suzhou, China, Nov., 2015.

Invited speaker at Shanghai Jiaotong University, Shanghai, China, Oct., 2015.

Invited speaker at Peking University, Beijing, China, July, 2015.

Invited speaker at Anhui University, Anhui, China, July, 2015.

Invited speaker at International Congress on Ultrasonics, Metz, France, May 11-14, 2015.

Keynote Presentation at SPIE Smart Structures/NDE 2015: Structural Health Monitoring and Inspection of Advanced Materials, Aerospace, and Civil Infrastructure IX, San Diego, CA, March, 2015.

Invited speaker at NCSU CCEE graduate seminar, Jan. 22, 2015.

Invited speaker at PSU-NCSU NSF CDP Fall meeting, November 2-5, 2014.

Graduate Seminar, University of Minnesota, October 1st, 2014.

Invited speaker at University of Science and Technology of China, Hefei, China, July 15, 2014.

Invited speaker at Southern Medical University, Guangzhou, China, July 8, 2014.

Invited speaker at Xi’an Jiaotong University, Xi’an, China, July 4, 2014.


Invited speaker at Tianjin University, China, July 1, 2014.

Invited speaker at Design of Medical Device Conference, University of Minnesota, April 9, 2014.

Invited speaker at seminar series for graduate students at Joint School of Nanoscience and Nanoengineering, UNC, Greensboro, Jan. 24, 2014.

Invited speaker at Xi’an Jiaotonmg University, Xi’an, China, June 2013.

Invited speaker at Suzhou Institute of Biomedical Engineering and Technology, Suzhou, China, June 2013.

Invited speaker at 11th Annual Ultrasonic Transducer Engineering Conference, Los Angeles, CA, April 17-19, 2013.

Invited speaker at NCSU Chapter of the MRS on February 2013.

Invited speaker at Idaho National Lab, July 26, 2012.

Invited speaker at NSF CMMI Grantee Conference, Boston, MA, July 11, 2012.

Invited speaker at Smart Materials, Structures and Systems, Montecatini Terme, Italy, June 10-14, 2012.

Invited speaker at Design of Medical Device Conference, University of Minnesota, April 8-11, 2012.

Invited speaker at Penn State NSF Center for Dielectric Studies, Oct. 24-25, University Park, 2011.

Invited speaker at Shanghai Jiaotong University, July 06, 2011.

Invited speaker at Zhejiang University, July 04, 2011.

Invited speaker at BRIC Center, UNC Chapel Hill, June 13, 2011.

Invited speaker at Sandia National Lab, February 21, 2011.

Invited speaker at seminar series for UNC/NCSU BME graduate students, Chapel Hill, August 27, 2010.

Invited speaker at UNC BRIC, June 24, 2010.

Invited speaker at International Symposium on Ultrasound Imaging and Tissue Characterization, Washington, DC, May 2010.

Invited Tutorial talk, “Piezoelectric Composite Micromachined Ultrasonic Transducer: A New Ultrasound Transducer Technology”, AIUM Annual Convention—Tutorial Session, San Diego, March 24-27, 2010.

Invited speaker at Wright-Patterson AFRL, Dayton, OH, September 2009.

Invited speaker at NCSU MAE Seminar, Raleigh, NC, April 2009.

Invited Tutorial talk, “Micromachined High Frequency Ultrasound Transducers for Biomedical and NDE Imaging Applications”, PSU ESM Seminar, January 21, 2009.

Invited speaker at WVU ME Seminar, Morgan Town, WV, June 2008.

Invited speaker at PSU Center of Excellence in Structural Health Monitoring Spring Meeting, University Park, PA, April 2008.

Invited speaker at Annual Workshop, PSU International Center for Actuators and Transducers,


University Park, PA, May 2007.

Invited speaker at SUNY Albany Seminar, Albany, NY, July 2001.

Invited speaker at Xerox, Palo Alto, CA, May 2001.

Invited speaker at Standard MEMS Seminar, Long Island, NY, November 2000.

Invited speaker at Naval Research Lab, Washington, DC, August 1999.

Proposal Reviews:

Canada CFI proposal review (2017)

NASA Early Career Proposal panel (2016)

European Research Council proposal review (2015)

NIH SBIB-T Study Section (2011, 02/2012, 06/2012, 10/2012, 02/2013, 10/2013, 02/2014, 06/2014, 10/2014, 02/2015, 06/2015, 11/2015, 03/2016, 06/2016, 11/2016, 03/2017, 06/2017, 03/2018, 06/2018, 03/2019)

NSF proposal review: NSF MRI Panel (2011), DMR electronic proposal review (2011), CMMI (2015)

Reviewer of Focused Ultrasound Foundation's Research Awards Program (2014, 2015)

Proposal reviewer of DOE NEUP program (2013, 2014, 2016, 2017, 2018)

Proposal reviewer of DOE SBIR/STTR program (2013, 2014, 2016, 2018)

Reviewer of Shanghai Jiaotong University Principal Investigator Program (2013)

Proposal reviewer of South Carolina NASA Space Grant REAP program (2013)

NSERC proposal review (Canada) (2011)

NIH NIBIB RC2 Panel (2009)

NIH Disparity Panel (2009)

Conference Services:

IEEE NMDC, Member of Technical Program Committee, Chair of Award Committee, 2018.

IEEE NANO, Member of Technical Program Committee, NanoAcoustics Session Chair (2017, 2018)

IEEE Ultrasonics Symposium: Member of Technical Program Committee (Publicity Co-Chair, 2019; TPC-5, 2014- present), Session Chair (2015-present ), Student paper competition judge (2015)

SPIE Smart Materials and Structures and NDE: Member of Program Committee of Health Monitoring of Structural and Biological Systems VII (2013-present ), Member of Program Committee of Nondestructive Characterization for Composite Materials, Aerospace Engineering, Civil Infrastructure, and Homeland Security III (2009 - present ), Session Chair (2008-present )

ASME IMECE: Member of Program Committee (Track-3, 2014- present), Session chair (2011- present), Student paper competition Chair (2014-2016 )

Symposium on Piezoelectricity, Acoustic Waves, and Device Applications (SPAWDA): Session chair (2015)


IEEE Sensors: Member of Program Committee (2007, 2008, 2009), Session Chair, IEEE Sensors (2008)

Member of Program Committee of International Berkeley MEMS Conference (2000)

Editorial Services and Paper Reviews:

Associate Editor/Guest Editor, IEEE Nanotechnology Magazine (2018-) (Special Issue on Nano-Acoustics—4 papers, 2019)

Senior Associate Editor, The ASME Journal of Engineering and Science in Medical Diagnostics and Therapy (JESMDT), 2017-present

Editorial board member: Sensors, 2015-present

Guest Editor, Sensors, Special Issue on Ultrasound Transducers, 2018-2019. (30 papers)

Guest Editor, Sensors, Special Issue on Acoustic Sensing and Ultrasonic Drug Delivery, 2016-2017. (18 papers)

Guest Editor, Sensors, Special Issue on Ultrasonic Sensors and Transducers for Applications in Biology, Medicine and NDT, 2013-2014. (29 papers)

Guest Editor, Smart Materials Research, Special Issue on Electroactive Functional Materials for Actuation, Sensing and Energy Harvesting, 2012-2013.

Book chapter reviewer for book titled “High Temperature Materials and Mechanisms”, Edited by Yoseph Bar-Cohen, CRC Press, 2013.

Reviewed Journals:

ACS Applied Materials & Interfaces; Acta Biomaterialia; Acta Materiala; Advanced Electronic Materials; Advanced Optical Materials; Advances in Acoustics and Vibration; AIP Advance; Applied Energy; Applied Mathematical Modelling; Applied Physics A; Applied Physics Letters; ASME Journal of Engineering and Science in Medical Diagnostics and Therapy; ASME Journal of Micro and Nano-Manufacturing; Biomicrofluidics; Biotechnology and Bioengineering; Ceramics International; Composites Part B: Engineering; IEEE Access; IEEE Sensors; IEEE Transactions on Biomedical Engineering; IEEE Transactions on Electron Devices; IEEE Transactions on Industrial Electronics; IEEE Transactions on Medical Imaging; IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control; Journal of Acoustic Society of America; Journal of Advanced Dielectrics; Journal of Alloys and Compounds; Journal of Applied and Computational Mechanics; Journal of Applied Physics; Journal of Electronic Materials; Journal of Engineering; Journal of Engineering Manufacture; Journal of Intelligent Material Systems and Structures ; Journal of Materials Chemistry C; Journal of Micromechanics and Microengineering; Journal of Physics D: Applied Physics; Journal of Sound and Vibration; Journal of the American Ceramic Society; Lab on Chip; Materials and Design; Measurement; Mechanics of Materials; Mechatronics; Microelectronic Engineering; Microelectronics; Micromachine; Nano Energy; Nanoscale; Nature Electronics; Nature Communications; Optics Communications; Royal Society Open Science; Scientific Reports; Sensors; Sensors and Actuators: A Physical; Smart Materials and Structures; Solid State Communications; Theranostics; Ultrasonics

Conference paper reviews:

IEEE IUS (2014, 2015, 2016, 2017, 2018, 2019); IEEE Nano (2017, 2018, 2019); IEEE NMDC (2018); ASME IMECE (2006, 2011, 2012, 2013, 2014, 2015, 2016, 2017, 2018); IEEE Sensors (2007, 2008, 2009); International Berkeley MEMS Conference (2000)


Other Services:

PhD Thesis external examiner, Hong Kong Polytechnic University, 2017.

NanoAcoustics Technical Committee Chair, IEEE NTC (2016-)

PhD Thesis external examiner, University of Waterloo, Canada, 2016.

IEEE UFFC Education Committee, 2015-2017

PhD Thesis external examiner, Auckland University of Technology, New Zealand, 2014, 2017, 2018

IEEE UFFC Representative to IEEE Nanotechnology Council, 2014-present

Xiaoning Jiang, Ph.D. - nsuf.inl.gov

Documents

Transcript of Xiaoning Jiang, Ph.D. - nsuf.inl.gov