- Professor Jae-Young Park's research team develops high-power electricity production through finger movements -

- Development of high-power stretchable friction-based nanogenerator based on vanadium MXene/silicon -

- Utilizing a self-powered tactile sensor for wearable healthcare, sign language interpretation, and human-machine interface applications -

- Published in the internationally renowned academic journal Advanced Energy Materials (IF: 29.698) -

Professor Jae-Young Park's research team in the Department of Electrical Engineering has successfully developed a high-performance friction-based nanogenerator with vanadium meso-tetraphenylporphyrin (V2CTx)/silicon nanocomposites with a very high electrical conductivity and a self-powered wearable tactile sensor. 

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(Photo: Professor Jae-Young Park (left), Dr. Soheil (middle), Dr. Salaruddin (right))

This research was supported by the Ministry of Science and ICT of Korea through the Mid-career Researcher Program (NRF-2020R1A2C2012820) and the Brain Pool Program for Inviting Outstanding Scientists, and the research results have been published in Advanced Energy Materials (IF: 29.698), the world's leading journal for energy materials and devices, published by Wiley. https://doi.org/10.1002/aenm.202203812

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<Performance Characteristics of Snake-shaped Stretchable Friction-based Nanogenerator and Self-powered Tactile Sensor Based on Vanadium MXene/Silicon Nanocomposite Material>