New progress in research on nano-operated robots at Shenyang Institute of Automation
Recently, the international academic journal Small invited the latest achievements in the field of life-like robot enabling in the field of micro-nano research group of the Robotics Research Laboratory of Shenyang Institute of Automation, Chinese Academy of Sciences. This study uses nano-operated robots designed in collaboration with ultrasonic processing and detection to realize the fabrication of submicron-sized molybdenum sulphide FETs, which provides an effective way to establish multi-dimensional information acquisition interface for engineered cells, in order to realize living cells. The foundation for the successful manufacture of life-behavioral sensing devices. This study combines ultrasound with nano-manipulators to introduce the superior properties of ultrasound into the nanoscale. The impact characteristics of ultrasonic machining improve the linearity of the edge of the machined structure, reduce the machining force, and use ultrasonic phase detection and processing energy loss. The specific relationship between the two ends realizes the closed-loop control of the processing depth in the task space, and proposes the "phase mode" processing method, which overcomes the outstanding problems in the traditional nano-manipulation robot processing, and realizes the sub-micron in combination with the lift-off process. The integrated fabrication of sized two-dimensional material FETs provides a more efficient, convenient, and flexible enabling technique for the fabrication of life-like sensing devices based on living biomaterials—two-dimensional materials—semiconductor materials. In recent years, the micro-nano research group of Shenyang Automation Institute has carried out research on life-life-enhancing technology, life-like perception, life-driven and life-like intelligence based on the life-engine-like research concept of life system and electromechanical system. The research results published in this cover show the possibility that the robot perception system based on advanced life robot enabling technology will change from non-living medium to living medium, and move towards the comprehensive establishment of life-like robot system. The research team's preliminary achievements in this field have been published in international journals such as Nature Communications, Small, ACS Applied Materials & Interfaces, Lab on a Chip, Nanoscale, IEEE Trans, etc. The research layout is gradually systematic and systematic, and it will be better for the future. The results laid the foundation for the work. The cover of Small publishes the research results of the Micro-Nano Group of Shenyang Institute of Automation Common Refining Agent,White Common Refining Agent,Slightly Transparent Common Refining Agent,Granular Common Refining Agent Hudeng Metal Materials Co., Ltd , https://www.hudengmetal.com