The glove becomes a body sign monitor, the smartphone can be folded into small pieces, and the tablet can be rolled into a pocket ... A few days ago, the team of Professor Li Rongjin and Hu Wenping of Tianjin University first developed the new technology of "two-dimensional organic single crystal controllable preparation". The development of new high-performance organic transistor materials has laid the material foundation for the next step in the manufacture of high-performance flexible infrared detectors, which also means that the "thin as cicada wings, gentle and considerate" wearable electronic device dream to achieve a big step forward. Flexible electronic devices refer to electronic devices that can still work under certain deformation (bending, folding, twisting, compressing or stretching) conditions, and are considered to be "the future development trend of electronic devices", such as wearable sensors and implantable medical devices. Devices, flexible bracelets, and foldable cell phones are expected to disrupt human production and lifestyles. The reason why flexible electronic devices can bend softly is that they use thin, flexible organic electronic components. As we all know, transistors are an important part of electronic components, and organic transistors are the most important basic components of flexible electronic devices. At present, the mainstream organic transistor materials in the world generally have many structural defects and poor stability, which restrict the further development of flexible electronic devices. How to prepare low-defect, high-stability organic transistor materials has also become a difficult problem for scientists around the world to overcome. In the field of organic field effect transistors, the team of Professor Li Rongjin and Hu Wenping creatively invented a new method of "water surface space confinement", which uses single or several molecular layer thickness two-dimensional organic single crystals to prepare organic field effect transistors For the first time, the "two-dimensional organic single crystal controllable equipment" was realized, and a new class of high-performance organic transistor materials was obtained. The organic transistor material based on this new type of two-dimensional organic single crystal has excellent photoelectric performance and can realize the capture of weak infrared signals of living organisms. The study further found that the structural stability of this new organic transistor material also greatly surpasses the current materials, which also laid the foundation for the future manufacture of high-performance flexible infrared detectors. This achievement is a major technological breakthrough in the field of organic electronics, and related research results have been published in the new issue of the International Academic Journal "American Chemical Society" and "Advanced Materials". (Reporter Sun Yusong correspondent Jiao Defang) Fiberglass Tape Measure,Tape Line Measure,Magnet Tape Measure,Abs Fiberglass Tape Measure Shangqiu Hengli Measuring Tools Co.,Ltd , http://www.henglimtools.com