Kazusuke and Associate Professor Hahahaha of Shimane University Faculty of Science and Engineering have been published in the international academic journal Nature Communications, which has realized the world's highest performance thinner transistor and has achieved the world's highest performance thinner film transistors in collaboration with Professor Kochi University of Technology.rice field
Release date March 02, 2022
In collaboration with Professor Kochi University of Technology, Kochi University of Technology, Kochi University of Technology, found a low -temperature synthesis method of next -generation semiconductor materials (Fig. 1, 2), a representative oxide semiconductor.We have demonstrated the world's highest performance thin film transistor (term 3), which is more than 10 times that of quality IGZNO (IGZO) (term 1 term) and surpasses the current practical multi -crystal silicon (LTPS) (term 2).(Fig. 3).The synthesized hydrogenized multiple crystallization indiums are transparent and can be synthesized, and are expected to develop into transparent flexible devices (term 4), in addition to the high performance and low power of the next -generation displays and semiconductor memory.The results of this research were released to the British science journal "Nature Communications (Nature Research)" on February 28, 2022.Doi: 10.1038/S41467-022-28480-9
(Term 1) Ingazno: Indium (IN), gallium (GA), zinc (ZN), oxygen (o), and an oxide semiconductor that has no long -distance order in the atomic sequence.(Term 2) Multi -crystal silicon: A large number of small single crystal silicon crystal grains.Currently, it is practical as a material for electronic components and has become mainstream.(Language 3) Thin film transistor: In the image display of all information display displays, such as mobile phones, personal computers, and television, it is a key device that controls the flow of electricity, and is a type of electric field effect transistor with metal/insulating/semiconductor.be.(Language 4) Flexible device: Device that can be thin and lightly bent or rolled.
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