报告人: Ajit Khosla Distinguished Professor
Xidian University
报告时间:2022年8月12日11:00
报告地点:科研楼一楼报告厅
联系人: 魏迪研究员
报告人简介:
Dr. Ajit Khosla is a distinguished professor in the School of Advanced Materials and Nanotechnology at the Xidian University, Shaanxi Province. China. He is also Distinguished Professor (Adjunct) at the Yamagata University in Japan, and San Diego State University in United States. He received his PhD from Simon Fraser University in 2012, where he was awarded the Dean of Graduate Studies Convocation Medal as one of SFU’s most outstanding graduate students in the Faculty of Applied Sciences. He is the author of over 140 publications in refereed journals, 115 conference proceedings, 4 books and 5 US patents. He has initiated numerous projects and developed collaborations with industry and universities globally.
He is Founding Editor-in-Chief of one of Electrochemical Societies first gold open access journals, ECS Sensors Plus; published on IOP Science. He is also Technical Editor for Sensors Topical interest area of Journal of Electrochemical Society and Journal of Solid-State Science and technology. He has been a champion of the Electrochemical Society’s (ECS) diversity, equity, inclusion, & access mission statement, in leading a focus issue in The Journal of Electrochemisty (JES), titled ‘Women in Electrochemisty’. He is chair and founder of ICTSGS and 4DMS+SoRo annual conference series.
His research program is interdisciplinary in nature that bridges disciplines. His focus is on development of sustainable micro-nano fabricated flexible chemical and biological sensors for healthcare and environmental monitoring.
报告摘要:
We are at the cusp of a massive technological expansion, enabled by the possibility of manipulating and interrogating atoms and molecules, and conveying the outcome of their molecular information to macroscale observers paving the way for ubiquitous sensing. For example, the full potential of the emerging areas such as Internet of Things (IoT), smart cities, autonomous vehicles, additive manufacturing, precision agriculture, wearables, clean energy, long-term environmental monitoring, etc. cannot be achieved without the mass deployment of inexpensive, miniature sensor systems capable of generating high fidelity big data for analysis by advanced analytics in real time. It would be revolutionary if these sensors could be powered without batteries and could be interconnected without using conventional electromagnetic wave-based systems (Wi-Fi Nets). Such a sensor system, based on arrays, powered by advanced energy harvesting techniques pioneered by Prof. Z. L. Wang has the potential to change the world.
This talk focuses on an overview the research program established by me over last 15 years and will include examples, such as: development new wideband semiconductor materials, micro-nano fabricated sensors systems, 3D printed flexible sensors and actuators, soft robotics, and last but not the least food printing. This talk will also highlight my global collaborations, contributions, leadership & service to scientific community.