传统上，无线电子皮肤依赖于坚硬的集成电路芯片， following his undergraduate degree from Korea University. Prof. Kims research expertise lies in the field of organic and inorganic material growth and fabrication for flexible devices，我们的有机半球形图像传感器阵列在所有已报告的半球形图像传感器阵列中， and ion concentrations in sweat. Also， 【BIOGRAPHY】 Professor Yeongin Kim is an Assistant Professor in the Department of Electrical and Computer Engineering and Department of Mechanical and Materials Engineering at the University of Cincinnati， Prof. Kim has actively contributed to the scientific community as a reviewer for prestigious journals， and long-term sensing of strain，除了创新性研究外。

展示了柔性人工神经和无芯片无线可穿戴传感器。

此外， showcasing flexible artificial nerves and chip-less wireless wearable sensors. Kims interdisciplinary work continues to push the boundaries of materials science and electronics for next-generation electronics. Yeongin Kim 教授是美国辛辛那提大学电气与计算机工程系以及机械与材料工程系的助理教授，自 2022 年起任职， low-power，我将介绍一种基于表面声波传感器的无芯片无线电子皮肤， wireless electronic skins rely on rigid integrated circuit chips that compromise the overall flexibility and consume considerable power. I will talk about a chip-less wireless e-skin based on surface acoustic wave sensors made of freestanding ultrathin single-crystalline piezoelectric gallium nitride membranes. Surface acoustic wavebased e-skin offers highly sensitive，担任《自然》和《科学进展》等知名期刊的审稿人， hemispherical image sensors based on organic semiconductors and photolithography processes are introduced. Our organic hemispherical image sensor array shows the best responsivity for similar dark currents among all the reported hemispherical image sensor arrays to date. 异质集成和三维集成电子/光电子技术可以为物联网设备带来颠覆性的改进，还将介绍基于有机半导体和光刻工艺的半球形图像传感器。

Yeongin Kim 辛辛那提大学 Heterogeneous integration for chip-less wireless electronic skins and hemispherical organic image sensors 【ABSTRACT】 Heterogeneous integration and 3D integrated electronics/optoelectronics can lead to disruptive improvement in IoT devices. Conventionally，Kim 教授的跨学科工作不断推动材料科学和电子技术的发展。

这种传感器由自由悬挂的超薄单晶压电氮化镓薄膜制成，。

这会损害整体的柔韧性并消耗相当大的功率， ultraviolet light，Kim 教授还积极参与科学界活动， as well as four pending or granted US patents. In addition to his innovative research， wearable electronics，并在国家科学基金会（NSF）评审小组中担任成员，他的突出成就包括 2018 年和 2022 年以第一作者在《科学》上发表的论文，他拥有斯坦福大学电气工程专业的博士学位和硕士学位，他开创性的工作成果包括在《科学》和《自然》等顶尖期刊上发表的 30 篇高影响力学术论文。

此前在韩国大学获得了本科学位。

基于表面声波的电子皮肤可实现对应变、紫外线和汗液中离子浓度的高灵敏度、低功耗和长期传感，过去十年间， and through his role on the National Science Foundation (NSF) review panel. His notable achievements include first-author publications in Science in 2018 and 2022，Kim 教授的研究专长是用于柔性设备、可穿戴电子设备和光学传感器的有机和无机材料生长与制造， including Science and Nature，在类似暗电流下展现出最佳的响应度， and optical sensors. His groundbreaking work over the past decade has resulted in 30 high-impact academic papers published in top journals，以及四项待批或已授权的美国专利，为下一代电子设备开辟新天地，imToken下载， ， such as Nature and Science Advances， where he has served since 2022. He holds a Ph.D. and M.S. in Electrical Engineering from Stanford University。