Xinlin Li | Electronic Materials | Best Researcher Award

Associate Professor Xinlin Li at Qingdao University specializes in advanced electronic materials and devices, focusing on innovative printing technologies for organic electronics. 🧑‍🏫🔬 He is a valued member of China’s National Expert Committee on Electronic Information Materials and Devices and a Big Data ‘Pilot Expert’ with the Shandong Provincial Department of Industry and Information Technology. 📊⚙️ With a strong academic foundation from Yeungnam University, Xinlin has published extensively on electrohydrodynamic jet printing and organic field-effect transistors. His cutting-edge research advances flexible electronics and printed semiconductors, driving innovation in materials science and device engineering. 📱✨

Publication Profiles

Scopus

Google Scholar

 Education & Experience 

Education:

• 🎓 Ph.D., Yeungnam University

• 🎓 M.S., Yeungnam University

• 🎓 B.S., Yeungnam University

Experience:

• 🧑‍🏫 Associate Professor, School of Mechanical and Electrical Engineering, Qingdao University (since Aug 2019)

• 🏫 Faculty member, Qingdao University (Feb 2019 – Present)

Suitability for the Award

Dr. Xinlin Li, Associate Professor at the School of Mechanical and Electrical Engineering, Qingdao University, is a distinguished nominee for the Best Researcher Award in recognition of his outstanding contributions to the fields of printed electronics, electrohydrodynamic (EHD) jet printing, and organic semiconductor devices. With a strong international academic foundation and a proven track record of high-impact research, Dr. Li has consistently advanced the frontiers of electronic materials and device engineering, making him an ideal candidate for this prestigious honor.

 Professional Development

Xinlin Li has continuously developed his expertise through active participation in both academic research and professional committees. 🧠💼 As a National Expert Committee member, he advises on electronic materials and device innovation, bridging academia and industry. 🔗🏭 His role as a Big Data ‘Pilot Expert’ highlights his engagement with emerging data-driven technologies in manufacturing and electronics. 📊⚙️ Xinlin frequently publishes in high-impact journals, contributing to advancements in electrohydrodynamic printing and organic electronics. 📚📝 He also collaborates internationally, enhancing knowledge exchange and fostering cutting-edge developments in flexible and printed electronics. 🌐🤝

 Research Focus 

Xinlin Li’s research centers on electronic materials and devices, particularly in electrohydrodynamic (EHD) jet printing for flexible organic electronics. 🖨️🔬 His work innovates in printing carbon-black composites and copper/polymer electrodes, advancing the fabrication of organic field-effect transistors (OFETs) and sensors. 🛠️📱 By exploring novel donor–acceptor polymers and non-lithographic patterning methods, Xinlin pushes the boundaries of solution-processed electronics. 💡⚡ His research contributes to next-generation wearable and flexible devices, enabling cost-effective, scalable manufacturing processes. 🌱🔧 His interdisciplinary focus merges materials chemistry, device engineering, and printing technology to revolutionize electronics production. 🧩🧑‍🔬

 Awards & Honors 

• 🏅 Member, National Expert Committee on Electronic Information Materials and Devices (China)

• 🚀 Big Data ‘Pilot Expert’, Shandong Provincial Department of Industry and Information Technology (2023)

• 📜 Multiple high-impact journal publications in organic electronics and materials chemistry

• 🥇 Recognized for innovation in electrohydrodynamic jet printing technology

• 🤝 Active contributor to international research collaborations in electronic materials and printed devices

Publication Top Noted

1. Dual-function electrochromic supercapacitors displaying real-time capacity in color – ACS Applied Materials & Interfaces, 102 cites, 2018 
2. Overview of recent progress in electrohydrodynamic jet printing in practical printed electronics – Materials Advances, 79 cites, 2021 
3. Non-volatile, Li-doped ion gel electrolytes for flexible WO3-based electrochromic devices – Materials & Design, 79 cites, 2019 
4. From materials to devices using fused deposition modeling: A state-of-art review – Nanotechnology Reviews, 77 cites, 2020 
5. Mulberry paper-based graphene strain sensor for wearable electronics – Sensors and Actuators A: Physical, 76 cites, 2020 
6. Recent advances and future challenges of starch-based bio-composites – Carbohydrate Polymers, 66 cites, 2023 
7. Direct patterning of CNT/PSS composites via EHD jet printing for OFETs – Journal of Materials Chemistry C, 61 cites, 2016