Tseung‐Yuen Tseng
Papers
1
Total Citations
24
H-Index
1
About
Tseung‐Yuen Tseng is a pioneering figure in the field of resistive switching and neuromorphic computing, with a particular focus on developing materials and devices that mimic biological sensory systems. His research centers on oxide-based memristors, where he has made significant contributions to understanding the role of diffusion limiting layers in device performance. In his highly cited 2023 work, Tseng introduced a novel TaN/Ta/TaOx/Al2O3/ITO/glass memristor that functions as an artificial nociceptor—a critical component for next-generation human-like robots capable of detecting and responding to noxious stimuli. This device demonstrates stable bipolar switching and emulates key nociceptive behaviors, representing a major step toward realizing bio-inspired electronic systems. With over 24 citations in a short time, this work underscores his impact in advancing neuromorphic hardware. Tseng’s broader achievements include pioneering studies on tantalum oxide-based resistive memories, which have garnered widespread attention for their potential in non-volatile memory and artificial neural networks. His research continues to bridge the gap between fundamental materials science and practical applications in intelligent robotics, making him a leading voice in the evolution of brain-inspired computing.
Research Focus
Key Achievements
Top Papers
- 1