Prof. Yinglin Wang | Gas Sensors | Best Researcher Award

Prof. Yinglin Wang, Xidian University, China

Dr. Yinglin Wang is an Associate Professor at the School of Aerospace Science and Technology, Xidian University, China, specializing in gas sensors and flexible electronic devices. He holds a Ph.D. in Microelectronics and Solid-State Electronics from Jilin University and earned both his Master’s and Bachelor’s degrees in Polymer Chemistry and Polymer Materials Science from Changchun University of Technology. With a strong research background in the synthesis and characterization of semiconductor and organic materials, Dr. Wang has contributed significantly to the development of high-performance gas sensors, particularly for detecting acetone, xylene, and n-butanol at low temperatures. He has authored numerous high-impact publications in top journals like Sensors and Actuators B and Chemical Engineering Journal. Dr. Wang has also been a visiting scholar at Germany’s Jülich Research Center and actively leads or participates in multiple national research projects funded by the NSFC, military commissions, and provincial science programs. Recognized for his excellence in research and mentoring, he has received national scholarships, outstanding graduate awards, and accolades as an innovation and entrepreneurship mentor.

Professional Profile:

SCOPUS

ORCID

Summary of Suitability for the Best Researcher Award:

Dr. Yinglin Wang, Associate Professor at the School of Aerospace Science and Technology, Xidian University, stands out as a highly suitable candidate for the Best Researcher Award in the field of gas sensors and flexible electronic devices. His rapid academic progression, impactful research contributions, and international recognition underscore his scientific excellence and innovation in material science and sensor technology.

🎓 Education

B.E. in Polymer Materials Science and Engineering
Changchun University of Technology (2006–2010)
M.S. in Polymer Chemistry and Physics
Changchun University of Technology (2011–2014)
Ph.D. in Microelectronics and Solid-State Electronics
Jilin University (2014–2017)

🧪 Work Experience

🧑‍🏫 Associate Professor — Xidian University, China (2020–Present)
🇩🇪 Visiting Scholar — Jülich Research Center, Germany (2020)
👨‍🏫 Lecturer — Xidian University, China (2019–2020)
🔬 Postdoctoral Researcher — Xidian University (2017–2019)
🎓 Doctoral Researcher — Jilin University (2014–2017)

🏆 Achievements & Projects

🔬 Multiple first/co-author papers in Sensors and Actuators B: Chemical, Chemical Engineering Journal, ACS Applied Electronic Materials, and others.
⚗️ Pioneered research in gas sensing, flexible electronics, and composite semiconductor materials.
🧪 Skilled in materials synthesis, gas sensor fabrication, and advanced characterization (e.g., SEM, XRD, XPS).
💻 Proficient in Origin, Photoshop, XPS analysis tools.

🥇 Awards & Honors

🎓 National Scholarship for Doctoral Candidates (2016)
🏅 Outstanding Graduate Award – Jilin University (2016, 2017)
🧑‍🏫 Excellent Innovation & Entrepreneurship Mentor – Internet+ Competition (2023)
💰 China Postdoctoral Science Foundation Grant (2017M623120)
🌍 China Postdoctoral Exchange Programme (20190106)
🧬 National Natural Science Foundation of China (61803289, 61573164)
🛰️ JCJQ Military Science & Technology Project (2021-0699)
🧭 Inner Mongolia Science & Tech Programme (2022YFHH0073)
🧑‍💼 Shaanxi Province HR & Social Affairs Postdoc Programme (30102200017)

Publication Top Notes:

Etched Tungsten Oxide Modified with Au for Quick Xylene Detection

Efficient ppt-Level H2S Gas Sensor Based on YSZ and α-Fe2O3 Nanofoam Sensing Electrode

Editorial for the Applications and Challenges for Gas Sensors

Gas Sensor for Efficient Acetone Detection and Application Based on Au-Modified ZnO Porous Nanofoam

Yolk-shell microspheres perovskite Gd/Fe oxides with rich oxygen vacancies for ultra-sensitive properties in acetone detection

CO2-Philic Nanocomposite Polymer Matrix Incorporated with MXene Nanosheets for Ultraefficient CO2 Capture

Optimizing solvent dipole moment enables PVDF to improve piezoelectric performance

Mixed potential electrochemical NO2 sensor with YSZ ceramic electrolyte for monitoring in online vehicle diagnosis system

Ms. Qixiang Cai, Chinese Academy of Sciences, China

Dr. Cai Qixiang is a distinguished expert in climatology, ecology, and environmental science, with a focus on carbon cycle dynamics and greenhouse gas monitoring. He holds a Bachelor’s degree in Applied Meteorology and a Master’s in the Utilization of Agricultural Resources from China Agricultural University. He completed his Doctorate in Global Environmental Change at Beijing Normal University and is currently a post-doctoral researcher at the Institute of Atmospheric Physics, Chinese Academy of Sciences. Dr. Cai’s extensive experience includes projects on carbon cycle modeling, high-resolution carbon emission monitoring, and atmospheric CO2 concentration tracking. His work has been pivotal in assessing the environmental impacts of climate change, including studies on forest ecosystems, urban carbon emissions, and agrometeorology. Notable projects under his belt include the National Key R&D Program of China on carbon emission monitoring in the Beijing-Tianjin-Hebei region and the Jinan Carbon Detection and Evaluation Pilot Project.

Education:

2009.9-2013.7: Bachelor of Applied Meteorology, China Agriculture University

2013.9-2015.7: Master of Utilization of Agricultural Resources, China Agriculture University

2015.7-2019.2: Doctor of Global Environmental Change, Beijing Normal University

Expected 2019.6: Post-Doctoral Research, Institute of Atmospheric Physics, Chinese Academy of Sciences

Work Experience:

2011-2012: Researcher, National College Student Research and Innovation Project, China Agricultural University

Project: Analysis of the spatiotemporal evolution of precipitation resources and their effectiveness on crops in northern regions under the background of climate change

2012-2014: Researcher, Public Welfare Industry Research Special Project

Project: Frost occurrence pattern and risk assessment of fruit trees in northern China

2016-2019: Researcher, National Natural Science Foundation of China

Project: Forest ecosystem carbon cycle model driven by sample site inventory data

2017-2021: Researcher, National Key R&D Program of China

Project: High spatiotemporal resolution carbon emission monitoring and application demonstration in the Beijing-Tianjin-Hebei urban agglomeration

2021-2022: Researcher

Project: Networked monitoring of atmospheric CO2 concentration in Jinan

Expected 2023: Researcher

Project: Environmental Monitoring Center Station Air Quality Substation System Cargo in Fuzhou, Fujian

Expected 2023: Researcher

Project: Jinan Carbon Detection and Evaluation Pilot Project: “Jinan High Spatial and Temporal Resolution CO2 Assimilation and Inversion”