Faculty

ZHAO Hongran

Time: 2021-04-13    Source:     Views:

Associate Professor ZHAO Hongran

Address:2699 Qianjin Street, Changchun 130012, China

Email: haohr@jlu.edu.cn

Website: www.smdlab.jlu.edu.com

 

 


    Dr. ZHAO Hongran received his B.S. degree in 2013 in Microelectronics and Ph.D. degree in 2018 in Microelectronics and Solid-state Electronics from Jilin University. Now he is an associate Professor in Jilin University. His research fields focus on gas sensors and flexible pressure/strain sensors for healthcare. He has published 15 SCI retrieval papers on ACS Sens., ACS Appl. Mater. Interfaces, Sens. Actuators B and many other international journals.

Education Experience

2013.09-2018.06  Doctor of Science, College of Electronic Science and Engineering, Jilin University

2009.09-2013.06 Bachelor of Science, College of Electronic Science and Engineering, Jilin University

Working Experience

2020.09-Now Associate Professor, College of Electronic Science and Engineering, Jilin University

2018.09- 2020.09  Lecturer, College of Electronic Science and Engineering, Jilin University

Research Areas

1. Highly selective gas sensors for exhaled breath analysis

2. Flexible pressure/strain sensors for physiological signals acquisition.

Research Interests

Gas sensors, Flexible pressure/strain sensors, Wearable devices.

Ten Selected Publications

  • L. Liu, T. Fei, X. Guan, H. Zhao*, T. Zhang*, Humidity-activated Ammonia Sensor with Excellent Selectivity for Exhaled Breath Analysis, Sens. Actuators B 2021, 334, 129625.

  • L. Liu, T. Fei, X. Guan, X. Lin, H. Zhao*, T. Zhang*, Room Temperature Ammonia Gas Sensor Based on Ionic Conductive Biomass Hydrogels, Sens. Actuators B 2020, 320, 128318.

  • H. Zhao, L. Liu, X. Lin, J. Dai, S. Liu, T. Fei*, T. Zhang*, Proton-Conductive Gas Sensor: A New Way to Realize Highly Selective Ammonia Detection for Analysis of Exhaled Human Breath, ACS Sens. 2020, 5, 346-352. (Cover paper)

  • X. Lin, S. Gao, T. Fei, S. Liu, H. Zhao*, T. Zhang*, Study on a Paper-based Piezoresistive Sensor Applied to Monitoring Human Physiological Signals, Sens. Actuators A 2019, 292, 66-70.

  • H. Zhao, X. Lin, R. Qi, J. Dai, S. Liu, T. Fei*, T. Zhang*, A Composite Structure of in situ Cross-linked Poly(ionic liquid)s and Paper for Humidity-Monitoring Applications, IEEE Sensor J. 2019, 19, 833-837.

  • H. Zhao, T. Zhang, R. Qi, J. Dai, S. Liu, T. Fei*, G. Lu, Humidity Sensor Based on Solution Processible Microporous Silica Nanoparticles, Sens. Actuators B 2018, 266, 131-138.

  • H. Zhao, T. Zhang, R Qi, J. Dai, S. Liu, T. Fei*, G. Lu, Development of solution processible organic-inorganic hybrid materials with core-shell framework for humidity monitoring, Sens. Actuators B 2018, 255, 2878-2885.

  • H. Zhao, T. Zhang, R Qi, J Dai, S Liu, T Fei*, Drawn on Paper: A Reproducible Humidity Sensitive Device by Handwriting, ACS Appl. Mat. Interfaces 2017, 9, 28002-28009.

  • H. Zhao, T. Zhang, R. Qi, J. Dai, S. Liu, T. Fei*, G. Lu, Organic-inorganic hybrid materials based on mesoporous silica derivatives for humidity sensing, Sens. Actuators B 2017, 248, 803-811.

  • H. Zhao, T. Zhang, J. Dai, K. Jiang, T. Fei*, Preparation of hydrophilic organic groups modified mesoporous silica materials and their humidity sensitive properties, Sens. Actuators B 2017, 240, 681-688.

 


 

 

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