Junwen ZHONG鍾俊文
Assistant Professor

Academic Qualifications | Education/Career | Research | Honors/Awards | Patents | Publications | Contact Details


Academic Qualification

  • B.Sc. in Chemistry, Huazhong University of Science and Technology, China (2011)
  • Ph.D. in Electrical Science and Engineering, Huazhong University of Science and Technology, China (2016)

Education/Career

08/2020 – Present Assistant Professor, University of Macau, China
01/2020 – 08/2020 RIKEN (Institute of Physical and Chemical Research), Japan
Special Postdoctoral Researcher (SPDR), Advisor: Professor Takao Someya
11/2016 – 12/2019 University of California at Berkeley, USA
Postdoctoral Researcher, Advisor: Professor Liwei Lin
09/2011 – 06/2016 Huazhong University of Science and Technology, China
Ph.D. Candidate, Advisor: Professor Jun Zhou
04/2014 – 04/2015 Georgia Institute of Technology, USA
Exchange Student, Advisor: Professor Zhong Lin Wang
09/2007 – 06/2011 Huazhong University of Science and Technology, China
B.S., School of Chemistry and Chemical Engineering

Research

Research Interests

  • Self-powered systems, active sensors, mechanical actuators, and soft robots

Funding

  1. Zhong, J. Flexible/Stretchable Piezoelectret Electromechanical Transducers for Bi-Directional Human Interactions. Source: Institute of Physical and Chemical Research (Riken). 3,000,000 JPY. 2020.
  2. Lin, L.; Zhong, J. (Participation); Chemical and Environment–Portable Sensor Technologies (CE-PoST). Source: The Philippine-California Advanced Research Institutes. $947,685. 2017-2019.
  3. Lin, L.; Zhong, J. (Participation); Sensors for Wearable Sensing and Internet of Things. Source: Tsinghua Berkeley Shenzhen Institute. $700,000. 2015-2019.

Research Activities

  • 2011-2016: Flexible Energy Harvesters and Self-Powered Sensors for Wearable Electronics, with Ph.D Thesis Entitled: Wearable and Self-Powered Electronic Devices Based on Flexible Electret Generators.
  • 2016-Present: Flexible Sensors, Soft Actuators, and Soft Robots for Human Interactivity Applications.

Dr. Junwen Zhong has published 1 US patent, 11 Chinese patents, 1 book chapters, and 50 papers, among which 16 papers are published as the first author or corresponding author in journals with IF>10 (including 3 papers published in IF>20 journal, 2 ESI highly cited papers and 3 cover papers). Some of his papers are published in top journals like Science Robotics, Energy & Environmental Science, Advanced Materials, Advanced Functional Materials, ACS Nano, and Nano Energy. He has over 3500 citations with H-index of 25. His researching works are reported by Science, Nature Nanotechnology, Scientific American, Chemical & Engineering News, Electronics Europe News, New Scientist, Berkeley News as highlights.

Research Service

Reviewer for ACS Nano, Advanced Functional Materials; Nano Energy Biosensors and Bioelectronics; Nanoscale; Small Methods, ACS Applied Materials Interface; Sensors Actuators. A Physics; Journal of Microelectromechanical System, etc.

Reports for Researching Works

  1. https://www.sciencemag.org/news/2019/07/watch-human-try-crush-cockroach-inspired-robot-and-fail (Science for Science Robotics 2019)
  2. https://www.scientificamerican.com/article/fang-needles-quantum-carpets-and-tender-robot-touches/ (Scientific American for Science Robotics 2019)
  3. https://news.berkeley.edu/2019/07/31/you-cant-squash-this-roach-inspired-robot/ (Berkeley News for Science Robotics 2019)
  4. https://www.digitaltrends.com/cool-tech/cockroach-robot-withstand-massive-weight/ (Digital Trends for Science Robotics 2019)
  5. https://www.kqed.org/science/1946089/video-this-robot-is-tougher-than-you-stronger-than-you-and-shaped-like-a-cockroach (KQED Science for Science Robotics 2019)
  6. https://www.newscientist.com/article/2211879-cockroach-robot-wont-break-after-being-repeatedly-stampe d-on/ (New Scientist for Science Robotics 2019)
  7. https://www.electronicproducts.com/News/Sensor_actuator_device_could_add_touch_to_virtual_and_aug mented_reality.aspx (Electronics Products for ACS Nano 2019)
  8. https://engineering.berkeley.edu/2019/07/adding-touch-virtual-and-augmented-reality (Berkeley Engineering for ACS Nano 2019)
  9. https://www.eenewseurope.com/news/micrometers-thin-haptics-film-senses-pressure-too?news_id=118589 (Electronics Europe News for ACS Nano 2019)
  10. http://www.most.gov.cn/gnwkjdt/201811/t20181101_142535.htm (MSTC for Advanced Functional Materials 2018)
  11. https://www.youtube.com/watch?v=ZBQCRQ8Dcdw&feature=youtu.be (Youtube for Advanced Functional Materials 2018)
  12. https://sciencetrends.com/lead-iodide-nanosheets-for-piezoelectric-energy-conversion-and-strain-sensing/ (Science Trends for Nano Energy 2018)
  13. http://www.nature.com/nnano/reshigh/2015/0815/full/nnano.2015.183.html (Nature Nanotechnology for ACS Nano 2015)
  14. http://cen.acs.org/articles/93/web/2015/07/Transparent-Paper-Produces-Power-Just.html (Chemical & Engineering News for ACS Nano 2015)
  15. http://www.nanowerk.com/spotlight/spotid=40737.php (Nanowerk for ACS Nano 2015)

Honors/Awards

2019 Special Postdoctoral Researcher Scholarship (SPDR), RIKEN, Japan
2018 Best PhD Thesis, Chinese Institute of Electronics
2017
Best Post Award, BSAC Spring Conference, UC Berkeley
2016
Outstanding PhD Graduate, HUST
2015
Best Post Award, the 8th International Photonics and Optoelectronics Meetings, Wuhan, China
2014
China National Scholarship, Chinese Education Department
2013
Excellent Graduate Student Award, HUST
2012
Qiushi Scholarship, HUST
2011
Outstanding B.S. Graduate, HUST

Patents

  1. Paper-Based Flexible Power-Generation Apparatus, and Manufacturing Method Thereof, Patent Number: 9755553, US Patent.
  2. A Flexible Generator and Its Fabrication Method. Patent Number: 201210364143.1, Chinese Patent
  3. A Package with Self-Powered Display Electronics. Patent Number: 201410283005.X, Chinese Patent
  4. A Flexible Power Textile and Its Fabrication Method. Patent Number: 201410112708.6, Chinese Patent
  5. A Half-Transparent Pressure Sensor and Its Fabrication Method. Patent Number: 201110210639.9, Chinese Patent
  6. A Paper-Based Generator and Its Fabrication Method. Patent Number: 201210548895.3, Chinese Patent
  7. A Self-Powered Wireless Emitter and Receiver. Patent Number: 201310306475.9, Chinese Patent
  8. A Paper-Based Tactile Sensor and Its Fabrication Method. Patent Number: 201410168233.2, Chinese Patent
  9. An Electret Film Fabrication Method Based on Laser Heating. Patent Number: 201510019696.7, Chinese Patent
  10. An Electret Film with Charges Recovery Ability and Its Fabrication Method. Patent Number: 201510915591.X, Chinese Patent
  11. A Dual-Functional Mask and Its Fabrication Method Patent Number: 201610537942.2, Chinese Patent
  12. A Self-Powered Human Pulse Sensor. Patent Number: 201610242204.5, Chinese Patent

Publications

Book

  1. Zhong, J.; Zhong, Q.; Zhou, J., Flexible and Wearable Electronics: Design and Fabrication Techniques, Chapter 10: Fiber-Based and Textile-Based Flexible Generators for Wearable Energy Harvesting and Self-Powered Sensing, United Scholars Publication, 2016.

Journal Publications

  1. Li, Z.; Long, Y.; Zhong, J.*, Stability and Decay of Surface Electrostatic Charges in Liquids, Nano Energy 2020, 105618. (IF=16.602)
  2. Jiang, T.; Deng, L.; Qiu, W.; Liang, J.; Wu, Y.; Shao, Z.; Wang, D.; Zhang, M.; Qian, X.*; Zhong, J.*; Wang, X.; Lin, L.*, Wearable Breath Monitoring via A Hot-Film/Calorimetric Airflow Sensing System. Biosensors and Bioelectronics 2020, 163, 112288. (IF=10.257)
  3. Long, Y.; He, P.; Xu, R.; Hayasaka, T.; Shao, Z.; Zhong, J.*; Lin, L.*, Molybdenum-Carbide-Graphene Composites for Paper-Based Strain and Acoustic Pressure Sensors. Carbon 2020, 157, 594-601. (IF=8.821)
  4. Li, Z.; Zhong, J.*; Zi, Y., Robust Power Textile Based on Triboelectrification for Self-Powered Smart Textiles. IEEE Open Journal of Nanotechnology 2020, 1, 95-99.
  5. Wu, Y.; Yim, J. K.; Liang, J.; Shao, Z.; Qi, M.; Zhong, J.*; Luo, Z.; Yan, X.; Zhang, M.*; Wang, X.; Fearing, R. S.; Full, R. J.; Lin, L.*, Insect-Scale Fast Moving and Ultra-Robust Soft Robot. Science Robotics 2019, 4, eaax1594. (IF=18.684, Reported by Science, Scientific American, New Scientist, Berkeley News)
  6. Zhong, J.*; Ma, Y.; Song, Y.; Zhong, Q.; Chu, Y.; Karakurt, I.; Bogy, D. B.; Lin, L.*, A Flexible Piezoelectret Actuator/Sensor Patch for Mechanical Human–Machine Interfaces. ACS Nano 2019, 13, 7107-7116. (IF=14.588, Reported by Electronics Europe News, Berkeley Engineering)
  7. Nie, J.; Ji, M.; Chu, Y.; Meng, X.; Wang, Y.; Zhong, J.*; Lin, L.*, Human Pulses Reveal Health Conditions by A Piezoelectret Sensor via the Approximate Entropy Analysis. Nano Energy 2019, 58, 528-535. (IF=16.602)
  8. Liu, H.; Zhong, J.#; Lee, C.; Lee, S.-W.; Lin, L.*, A Comprehensive Review on Piezoelectric Energy Harvesting Technology: Materials, Mechanisms, and Applications. Applied Physics Reviews 2018, 5, 041306. (Co-First Author) (IF=17.054)
  9. Chu, Y.; Zhong, J.*#; Liu, H.; Ma, Y.; Liu, N.; Song, Y.; Liang, J.; Shao, Z.; Sun, Y.; Dong, Y.; Wang, X.; Lin, L.*, Human Pulse Diagnosis for Medical Assessments Using A Wearable Piezoelectret Sensing System. Advanced Functional Materials 2018, 1803413. (IF=16.836, Cover Paper, Reported by Ministry of Science and Technology of China)
  10. Song, H.; Karakurt, I.; Wei, M.; Liu, N.; Chu, Y.; Zhong, J.*; Lin, L.*, Lead Iodide Nanosheets for Piezoelectric Energy Conversion and Strain Sensing. Nano Energy 2018, 49, 7-13. (IF=16.602, Reported by Science Trends)
  11. Zhong, J.; Zhong, Q.; Zang, X.; Wu, N.; Li, W.; Chu, Y.; Lin, L.*, Flexible PET/EVA-Based Piezoelectret Generator for Energy Harvesting in Harsh Environments. Nano Energy 2017, 37, 268-274. (IF=16.602)
  12. Cheng, Y.; Wang, C.; Zhong, J.#; Lin, S.; Xiao, Y.; Zhong, Q.; Jiang, H.; Wu, N.; Li, W.; Chen, S.; Wang, B.; Zhang, Y.; Zhou, J.*, Electrospun Polyetherimide Electret Nonwoven for Bi-Functional Smart Face Mask. Nano Energy 2017, 34, 562-569. (Co-First Author) (IF=16.602)
  13. Zhong, J.; Zhong, Q.; Chen, G.; Hu, B.; Zhao, S.; Li, X.; Wu, N.; Li, W.; Yu, H.; Zhou, J.*, Surface Charge Self-Recovering Electret Film for Wearable Energy Conversion in A Harsh Environment. Energy & Environmental Science 2016, 9, 3058-3091. (IF=30.289)
  14. Zhong, J.; Zhu, H.; Zhong, Q.; Dai, J.; Li, W.; Jang, S.-H.; Yao, Y.; Henderson, D.; Hu, Q.; Hu, L.; Zhou, J.*, Self-Powered Human-Interactive Transparent Nanopaper Systems. ACS Nano 2015, 9, 7399. (IF=14.588, Reported by Scientific American,Nature Nanotechnology,Chemical & Engineering News)
  15. Zhong, Q.; Zhong, J.#; Cheng, X.; Yao, X.; Wang, B.; Li, W.; Wu, N.; Liu, K.; Hu, B.; Zhou, J.*, Paper-Based Active Tactile Sensor Array. Advanced Materials 2015, 27, 7130. (Co-First Author) (IF=27.398)
  16. Zhong, J.; Zhong, Q.; Hu, Q.; Wu, N.; Li, W.; Wang, B.; Hu, B.; Zhou, J.*, Stretchable Self-Powered Fiber-Based Strain Sensor. Advanced Functional Materials 2015, 25, 1798. (IF=16.836, Cover Paper)
  17. Zhong, J.; Zhang, Y.; Zhong, Q.; Hu, Q.; Hu, B.; Wang, Z. L.; Zhou, J.*, Fiber-Based Generator for Wearable Electronics and Mobile Medication. ACS Nano 2014, 8, 6273. (IF=14.588, ESI Highly Cited Paper)
  18. Zhong, Q.; Zhong, J.#; Hu, B.; Hu, Q.; Zhou, J.*; Wang, Z. L., A Paper-Based Nanogenerator as A Power Source and Active Sensor. Energy & Environmental Science 2013, 6, 1779. (Co-First Author) (IF=30.289, ESI Highly Cited Paper)
  19. Zhong, J.; Zhong, Q.; Fan, F.; Zhang, Y.; Wang, S.; Hu, B.; Wang, Z. L.; Zhou, J.*, Finger Typing Driven Triboelectric Nanogenerator and Its Use for Instantaneously Lighting up LEDs. Nano Energy 2013, 2, 491. (IF=16.602, Cover Paper)
  20. Li, W.; Duan, J.; Zhong, J.; Wu, N.; Lin, S.; Xu, Z.; Chen, S.; Pan, Y.; Huang, L.; Hu, B.; Zhou, J.*, Flexible THV/COC Piezoelectret Nanogenerator for Wide-Range Pressure Sensing. ACS Applied Materials & Interfaces 2018, 10, 29675. (IF=8.758)
  21. Wu, Y.; Karakurt, I.; Beker, L.; Kubota, Y.; Xu, R.; Ho, K. Y.; Zhao, S.; Zhong, J.; Zhang, M.; Wang, X.; Lin, L.*, Piezoresistive Stretchable Strain Sensors with Human Machine Interface Demonstrations. Sensors and Actuators A: Physical 2018, 279, 46-52. (IF=2.904)
  22. Zang, X.; Shen, C.; Chu, Y.; Li, B.; Wei, M.; Zhong, J.; Sanghadasa, M.; Lin, L.*, Laser-Induced Molybdenum Carbide–Graphene Composites for 3D Foldable Paper Electronics. Advanced Materials 2018, 1800062. (IF=27.398)
  23. Huang, L.; Yuan, F.; Li, W.; Lin, S.; Wu, N.; Chen, S.; Zhong, J.; Xu, Z.; Li, X.; Xiao, Y.*, Output Optimized Electret Nanogenerator for Self-Powered Long-Distance Optical Communication System. Nanoscale 2017, 9, 18529. (IF=6.895)
  24. Li, W.; Zhao, S.; Wu, N.; Zhong, J.; Wang, B.; Lin, S.; Chen, S.; Yuan, F.; Jiang, H.; Xiao, Y.; Hu, B.; Zhou, J.*, Sensitivity-Enhanced Wearable Active Voiceprint Sensor Based on Cellular Polypropylene Piezoelectret. ACS Applied Materials & Interfaces 2017, 9, 23716. (IF=8.758)
  25. Wu, N.; Jiang, H.; Li, W.; Lin, S.; Zhong, J.; Yuan, F.; Huang, L.; Hu, B.; Zhou, J.*, Output Enhanced Compact Multilayer Flexible Nanogenerator for Self-Powered Wireless Remote System. Journal of Materials Chemistry A 2017, 5, 12787. (IF=11.301)
  26. Zang, X.; Shen, C.; Kao, E.; Warren, R.; Zhang, R.; Teh, K. S.; Zhong, J.; Wei, M.; Li, B.; Chu, Y.; Sanghadasa, M.; Schwartzberg, A.; Lin, L.*, Titanium Disulfide Coated Carbon Nanotube Hybrid Electrodes Enable High Energy Density Symmetric Pseudocapacitors. Advanced Materials 2017, 30, 1704754. (IF=27.398)
  27. Zheng, S.; Zhong, J.; Matsuda, W.; Jin, P.; Chen, M.; Akasaka, T.; Tsukagoshi, K.; Seki, S.; Zhou, J.; Lu, X.*, Fullerene/Cobalt Porphyrin Charge-Transfer Cocrystals: Excellent Thermal Stability and High Mobility. Nano Research 2017, 11, 1917-1924. (IF=8.183)
  28. Ding, H.; Zhong, J.; Xu, F.; Song, F.; Yin, M.; Wu, Y.; Hu, Q.; Wang, J.*, Establishment of 3D Culture and Induction of Osteogenic Differentiation of Pre-Osteoblasts Using Wet-collected Aligned Scaffolds.Materials Science and Engineering: C 2017, 71, 222. (IF=5.88)
  29. Wang, B.; Liu, C.; Xiao, Y.; Zhong, J.; Li, W.; Cheng, Y.; Hu, B.; Huang, L.; Zhou, J.*, Ultrasensitive Cellular Fluorocarbon Piezoelectret Pressure Sensor for Self-Powered Human Physiological Monitoring. Nano Energy 2017, 32, 42-49. (IF=16.602)
  30. Gao, X.; Huang, L.; Wang, B.; Xu, D.; Zhong, J.; Hu, Z.; Zhang, L.; Zhou, J.*, Natural Materials Assembled, Biodegradable, and Transparent Paper-Based Electret Nanogenerator. ACS Applied Materials & Interfaces 2016, 8, 35587. (IF=8.758)
  31. Wang, B.; Zhong, J.; Zhong, Q.; Wu, N.; Cheng, X.; Li, W.; Liu, K.; Huang, L.; Hu, B.; Zhou, J.*, Sandwiched Composite Fluorocarbon Film for Flexible Electret Generator. Advanced Electronic Materials 2016, 2, 1500408. (IF=6.593)
  32. Li, W.; Wu, N.; Zhong, J.; Zhong, Q.; Zhao, S.; Wang, B.; Cheng, X.; Li, S.; Liu, K.; Hu, B.; Zhou, J.*, Theoretical Study of Cellular Piezoelectret Generators. Advanced Functional Materials 2015, 26, 1964. (IF=16.836)
  33. Wu, N.; Cheng, X.; Zhong, Q.; Zhong, J.; Li, W.; Wang, B.; Hu, B.; Zhou, J.*, Cellular Polypropylene Piezoelectret for Human Body Energy Harvesting and Health Monitoring. Advanced Functional Materials 2015, 25, 4788. (IF=16.836)
  34. Li, S.; Zhong, Q.; Zhong, J.; Cheng, X.; Wang, B.; Hu, B.; Zhou, J.*, Cloth-Based Power Shirt for Wearable Energy Harvesting and Clothes Ornamentation. ACS Applied Materials & Interfaces 2015, 7, 14912. (IF=8.758)
  35. Hu, Q.; Wang, B.; Zhong, Q.; Zhong, J.; Hu, B.; Zhang, X.; Zhou, J.*, Metal-Free and Non-Fluorine Paper-Based Generator. Nano Energy 2014, 14, 236. (IF=16.602)
  36. Guo, H.; He, X.; Zhong, J.; Zhong, Q.; Leng, Q.; Hu, C.; Chen, J.; Tian, L.; Xi, Y.*; Zhou, J., A Nanogenerator for Harvesting Airflow Energy and Light Energy. Journal of Materials Chemistry A 2014, 2, 2079. (IF=11.301)
  37. Zhang, B.; Xiang, Z.; Zhu, S.; Hu, Q.; Cao, Y.; Zhong, J.; Zhong, Q.; Wang, B.; Fang, Y.; Hu, B.*; Zhou, J.*; Wang, Z.*, Dual Functional Transparent Film for Proximity and Pressure Sensing. Nano Research 2014, 7, 1488. (IF=8.183)
  38. Yuan, L.; Xiao, X.; Ding, T.; Zhong, J.; Zhang, X.; Shen, Y.; Hu, B.; Huang, Y.; Zhou, J.*; Wang, Z. L.*, Paper-Based Supercapacitors for Self-Powered Nanosystems. Angewandte Chemie International Edition 2012, 51, 4934. (IF=12.959)
  39. Xiao, X.; Li, T.; Yang, P.; Gao, Y.; Jin, H.; Ni, W.; Zhan, W.; Zhang, X.; Cao, Y.; Zhong, J.; Gong, L.; Yen, W.-C.; Mai, W.; Chen, J.; Huo, K.; Chueh, Y.-L.; Wang, Z. L.; Zhou, J.*, Fiber-Based All-Solid-State Flexible Supercapacitors for Self-Powered Systems. ACS Nano 2012, 6, 9200. (IF=14.588)
  40. Xiao, X.; Yuan, L.; Zhong, J.; Ding, T.; Liu, Y.; Cai, Z.; Rong, Y.; Han, H.; Zhou, J.*; Wang, Z. L.*, High-Strain Sensors Based on ZnO Nanowire/Polystyrene Hybridized Flexible Films. Advanced Materials2011, 23, 5440. (IF=27.398)

Conference Publication

  1. Jiang, T.; Zhong, J.; Liang, J.; Wu, Y.; Li, Z.; Wang, X.; Lin, L.; Qian, X. Wearable Airflow Sensor for Nasal Symmetric Evaluation and Respiration Monitoring, IEEE SENSORS, 2019, 1-4.
  2. Zhong, J.*; Lin, L., Flexible Electret Generator for Self-Powered Metal Cathodic Protection, IEEE TRANSDUCERS, 2019, 2480-2483.
  3. Chu, Y.; Zhong, J.*; Liu, H.; Liu, N.; Song, Y.; Zang, X.; Dong, Y.; Wang, X.; Lin, L., Self-Powered Pulse Sensors with High Sensitivity to Reveal Sinus Arrhythmia, IEEE MEMS, 2018, 404-407.
  4. Zhong, J.; Li, X.; Hu, B.; Yuan, L.; Feng, Y.; Li, T.; Song, T.; Hu, J.; Zhou, J.*, Synthesis and Photoelectrochemical Property of PbS Quantum Dots Modified WO3 ECS Transactions 2013, 50, 41.
  5. Karakurt, I.; Zhong, J.; Lin, L. In 3D Printed Flexible Triboelectric Energy Harvesters via Conformal Coating of Parylene AF4, IEEE MEMS, 2019, 954-957.
  6. Ramirez, N.; Zhong, J.; Lin, L. In Piezoelectret Mechanocatalysts for Direct Water Splitting via Ultrasonication, IEEE MEMS, 2019, pp 71-74.
  7. Long, Y.; Zang, X.; Zhong, J.; Xu, R.; Hayasaka, T.; Lin, L. In A Paper-Based Disposable Strain Sensor by Direct Laser Printing, IEEE MEMS, 2019, 815-818.
  8. Liang, J.; Wu, Y.; Shao, Z.; Yim, J. K.; Xu, R.; Song, Y.; Qi, M.; Zhong, J.; Zhang, M.; Wang, X.; Lin, L. In Manipulating the Moving Trajectory of Insect-Scale Piezoelectric Soft Robots by Frequency, IEEE MEMS, 2019, 1041-1044.
  9. Chu, Y.; Liu, H.; Zhong, J.; Dong, Y.; Wang, X.; Lin, L. In Monitoring Vital Signs of Respiration and Heart Beat Simultaneously via a Single Flexible Piezoelectret Sensor, IEEE MEMS, 2019, 607-610.
  10. Wu, Y.; Ho, K. Y.; Kariya, K.; Xu, R.; Cai, W.; Zhong, J.; Ma, Y.; Zhang, M.; Wang, X.; Lin, L.*, In PRE-Curved PVDF/PI Unimorph Structures for Biomimic Soft Crawling Actuators, IEEE MEMS, 2018, 581-584.
  11. Wu, Y.; Beker, L.; Karakurt, I.; Cai, W.; Elwood, J.; Li, X.; Zhong, J.; Zhang, M.; Wang, X.; Lin, L.*, High Resolution Flexible Strain Sensors for Biological Signal Measurements, IEEE TRANSDUCERS, 2017; 1144-1147.

Oral Presentation

  1. IDTechEx, 2019. 11, Santa Clara, USA. Title: A Flexible Piezoelectret Actuator/Sensor Patch for Mechanical Human-Machine Interfaces
  2. IDTechEx, 2018. 11, Santa Clara, USA. Title: Human Pulse Diagnosis for Medical Assessments Using a Wearable Piezoelectret Sensing System
  3. Sensor Expo and Conference, 2018.06, San Jose, USA. Title: Flexible Sensors and Energy Harvesters Based on Electret and Piezoelectret
  4. Materials Research Society (MRS) Fall Meeting & Exhibit, 2017. 11, Boston, USA. Title: Flexible Piezoelectric Generators for Energy Conversion and Self-Powered Applications
  5. IDTechEx, 2017. 11, Santa Clara, USA. Title: Flexible Sensors and Energy Harvesters Based on Electret and Piezoelectret
  6. Materials Research Society (MRS) Spring Meeting & Exhibit, 2017. 04, Phoenix, USA. Title: Flexible Electret and Piezoelectret Nanogenerator for Wearable Electronics
  7. The 2nd International Conference on Nanoenergy and Nanosystems, 2016. 07, Beijing, China. Title: Fiber-Based Generator and Strain Sensor for Wearable Electronics and Health Monitoring

Poster Presentations

  1. IEEE Transducers, 2019, 06, Berlin, Germany. Title: Flexible Electret Generator for Self-Powered Metal Cathodic Protection
  2. BSAC Autumn Conference, 2017. 09, Berkeley, USA. Title: Flexible Sensors and Actuators Based on Electret and Piezoelectret
  3. BSAC Spring Conference, 2017. 03, Berkeley, USA. Title: Flexible Energy Harvester and Sensor for Wearable Electronics
  4. The 8th International Photonics and OptoElectronics Meetings, 06, Wuhan, China. Title: Fiber-Based

Contact Details

Faculty of Science and Technology
University of Macau, E11
Avenida da Universidade, Taipa,
Macau, China

Room: E11-4078
Telephone: (853) 8822-8766
Fax: (853) 8822-2426
Email: junwenzhong