Professor Teng Fei
Doctoral Supervisor
Address: 2699 Qianjin Street, Changchun 130012, China
Tel: (+86) 431-85166504
E-mail: feiteng@jlu.edu.cn
2005.09-2010.06 Doctor of polymer chemistry and physics, Jilin University
2001.09-2005.07 Bachelor of chemical engineering and technology, Jilin University
Working Experience
2018.10- Now Professor, College of Electronic Science and Engineering, Jilin University
2013.10-2018.09 Associate Professor, College of Electronic Science and Engineering, Jilin University
2010.07-2013.09 Lecturer, College of Electronic Science and Engineering, Jilin University
Honors
2013.12 First Prize of Natural Science Award of Jilin Province
2013.09 First Prize of Jilin Province Natural Science Academic Achievement Award
Research Areas
1. Humidity sensors: Polyelectrolyte resistance/QCM type humidity sensors
2. Gas sensors: Semiconducting polymer gas sensors
3. Advanced sensing materials: Polymer electrolytes and composites, solid ionic conducting materials, MOF materials, etc.
4. Optoelectronic materials and devices: Organic luminescent materials, optoelectronic sensors and devices
Ten Selected Publications
X. Guan, Z. Hou, K. Wu, H. Zhao, S. Liu, T. Fei*, T. Zhang*, Flexible humidity sensor based on modified cellulose paper, Sens. Actuators B 339 (2021) 129879.
J. Dai, X. Guan, H. Zhao, S. Liu, T. Fei*, T. Zhang*, In situ preparation of porous humidity sensitive composite via a one-stone-two-birds strategy, Sens. Actuators B 316 (2020) 128159.
H. Zhao, L. Liu, X. Lin, J. Dai, S. Liu, T. Zhang*, T. Fei*, Proton-conductive gas sensor: a new way to realize highly selective ammonia detection for analysis of exhaled human breath, ACS Sens. 5 (2020) 346-352.
J. Dai, H. Zhao, X. Lin, S. Liu, T. Fei*, T. Zhang*, Design strategy for ultrafast-response humidity sensors based on gel polymer electrolytes and application for detecting respiration, Sens. Actuators B 304 (2020) 127270.
L. ShangGuan, D. Zhang, T. Zhang, R. Cheng, J. Wang, C. Wang, F. Wang, S.-T. Ho, C. Chen*, T. Fei*, Functionalized polymer waveguide optical switching devices integrated with visible optical amplifiers based on an organic gain material, Dyes Pigments 176 (2020) 108210
J. Dai, H. Zhao, X. Lin, S. Liu, Y. Liu, X. Liu, T. Fei*, T. Zhang*, Ultrafast response polyelectrolyte humidity sensor for respiration monitoring, ACS Appl. Mater. Interfaces 11 (2019) 6483-6490.
R. Qi, X. Lin, J. Dai, H. Zhao, S. Liu, T. Fei*, T. Zhang*, Humidity sensors based on MCM-41/polypyrrole hybrid film via in-situ polymerization, Sens. Actuators B 277 (2018) 584-590.
J. Dai, R. Qi, J. Tu, H. Zhao, S. Liu, T. Fei*, T. Zhang*, Humidity sensor preparation by in situ click polymerization, IEEE Electron Device Lett. 39 (2018) 1234-1237.
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 248 (2017) 803-811.
H. Zhao, T. Zhang, R. Qi, J. Dai, S. Liu, T. Fei*, Drawn on paper: a reproducible humidity sensitive device by handwriting, ACS Appl. Mater. Interfaces 9 (2017) 28002-28009.
Projects
1. Time Period:2021.01-2022.12
Project Name: Highly sensitive and highly stable humidity sensors based on porous polyelectrolytes
Funding Source: Scientific Research Planning Project of Jilin Provincial Education Department
2. Time Period:2020.01-2022.12
Project Name: High performance polymer humidity sensors for respiratory monitoring
Funding Source: Science and Technology Development Plan of Jilin Province
3. Time Period:2018.01-2021.12
Project Name: Research of low cost and high stability humidity sensors based on cross-linked polyelectrolytes for industrial process control
Funding Source: National Natural Science Foundation of China
4. Time Period:2018.01-2019.12
Project Name: Highly stable humidity sensors based on cross-linked polymers
5. Time Period:2016.01-2018.12
Project Name: Flexible humidity sensors based on porous cross-linked polymers
Previou:LIANG Xishuang
Next:BAI Xue