北京时间9月11日晚8点，大家期待已久的iCANX Talks第二十二期即将重磅来袭，本次邀请了两位顶尖学者为大家带来最新科研成果。他们分别是来自日本大阪府立大学的竹井邦晴教授和来自清华大学的张一慧教授。竹井邦晴教授将为大家带来面向物联网应用的柔性传感器和电路的最新研究进展，张一慧教授将就柔性微结构技术：从软质力学超材料到三维柔性电子器件这一主题做出精彩报告。

The highly expectediCANX Talks be ceremoniously holed at8:00 pm of September 11 (Beijing time).This time, two top scholars were invited to bring you the latest scientific research reports. They areprofessor Kuniharu Takei from Osaka Prefecture Universityandprofessor Yihui Zhang from Tsinghua professor Kuniharu Takei will discuss the progress on flexible sensors and circuits for IoT applications. And the professor Yihui Zhang will present the latest progress on flexible mesostructure technologies: from soft mechanical metamaterials to 3D flexible electronics.

在前21期的iCANX talks直播中，每一期都吸引了全球三十余万人观看直播，累计收看观众已经近千万人次，受到了国内外专家学者的普遍好评和追捧，目前，iCANX Talks已经成为极具国际影响力的高科技云端学术峰会。

In the previous 21 weeks iCANX talks, every friday it attracted 300K+ audiences worldwide, totally close to 10 million. iCANX has been highlighted by experts and audiences globally. Now, iCANX Talks already becomes a well-known and popular international high-tech online event.

话不多说，先让小艾给大家详细介绍两位重磅嘉宾及演讲内容吧！

Here comes the two abstracts & Bios of this Friday’s iCANX Talks!

报告1

Flexible Sensors and Circuits for IoT Applications

面向物联网应用的柔性传感器和电路

Professor Kuniharu Takei

竹井邦晴

Department of Physics and Electronics

Osaka Prefecture University, JAPAN

日本 大阪府立大学

Group Website: sensing functional devices enable to collect a variety of information for the next class of Internet of Things (IoT) concept such as medical/healthcare, robotics, environment, and infrastructures. In addition to the functionalities, mechanical flexibility allows to attach the devices over non-planar surfaces conformally, resulting in that more information can be monitored precisely. In particular, multi-functional electronic skin (e-skin) can contribute to the applications of healthcare, robotic skin, and infrastructure due to low-cost, macro-scale devices that can cover a variety of objects including human bodies.

This talk will introduce the flexible circuits and sensors from the fundamental mechanism and characteristics to the flexible sensor applications. Especially, using the unique properties of flexible and thin film sensor sheets, a variety of applications are described such as healthcare monitoring, wind flow mapping, plant dehydration, and soft robotics, which cannot be realized easily by using conventional inflexible chip-based sensors. Furthermore, the challenges to measure the information from the targeted object without affecting environmental conditions and some others will also be discussed to move forward to building the platform for the practical flexible sensor sheet systems.

多传感功能器件可以为新一代物联网技术收集各种信息，在医疗健康、机器人、环境、基础设施等领域具有广泛应用。此外，柔性传感器的机械灵活性有利于实现设备与非平面物体表面共形接触，从而可以精确监测更多有价值的信息。多功能电子皮肤 (E-skin) 由于其低成本、大尺寸、可覆盖包括人体表皮在内的多种物体表面而受到广泛关注。

本报告将介绍柔性电路和传感器的基本原理、特点及其应用。特别地，利用柔性和薄膜型传感器的独特性能，本报告将介绍柔性传感器在医疗健康监测、大范围流体监测、植物脱水以及软体机器人等方面的应用。这些应用无法基于传统刚性芯片传感器轻易实现。另外，本报告还将讨论在不影响环境原始属性的情况下从目标对象测量获取信息存在的挑战，以及其它一些挑战。这些问题的解决将进一步推进柔性传感器系统平台的实际应用。

Biography

Professor Kuniharu Takei is a professor at Osaka Prefecture University in Japan, where he is also co-appointed as a JST PRESTO Researcher. His current research interests are to build the platforms for multi-functional, high-performance flexible electronics using both inorganic and organic materials. Takei’s research has been recognized with some awards including the Funai Prize (2020), Young Scientist’s Prize by MEXT (2018), NISTEP Researcher by MEXT (2015), 35 Innovators under 35 by MIT Technology Review (2013). He serves as the journal editorial board members such as Nanoscale Research Letters (Springer), Advanced Materials Technologies (Wiley), Scientific Reports (NPG), and Applied Surface Science Advances (Elsevier).

文章来源：《电子科技》 网址: http://www.dzkjzz.cn/zonghexinwen/2020/0910/356.html

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