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A Variety of Functional Devices Realized by Ionic Nanoarchitectonics, Complementing Electronics Components
Advanced Electronic Materials ( IF 5.3 ) Pub Date : 2021-10-27 , DOI: 10.1002/aelm.202100645 Kazuya Terabe 1 , Takashi Tsuchiya 1 , Tohru Tsuruoka 1
Advanced Electronic Materials ( IF 5.3 ) Pub Date : 2021-10-27 , DOI: 10.1002/aelm.202100645 Kazuya Terabe 1 , Takashi Tsuchiya 1 , Tohru Tsuruoka 1
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To realize the continuous development of information and communication equipment, it is also important to develop devices with new operating principles that overcome the functional and performance limitations of conventional electronics devices, such as transistors made of semiconductor materials. One group of devices that hold this promise is nanoionics devices that operate by using local ion transport and electrochemical reaction in solids. A number of nanoionics devices that control nanoelectrochemical phenomena through the use of ionic nanoarchitectonics have been created. Here the use of ionic nanoarchitectonics to locally control ion transport and electrochemical reactions through the use of ion conductors or mixed conductors as device materials is described. Further, the structures of nanoionics devices created by using the nanoarchitectonics, as well as their various electrical, magnetic and optical functionalities are introduced. It is expected that such nanoionics devices will complement conventional electronics devices, and make possible the further development of information and communication technologies.
中文翻译:
离子纳米结构实现的各种功能设备,补充电子元件
为了实现信息和通信设备的不断发展,开发具有新工作原理的设备以克服传统电子设备的功能和性能限制也很重要,例如由半导体材料制成的晶体管。具有这一前景的一组设备是纳米离子设备,它通过在固体中使用局部离子传输和电化学反应来操作。已经创建了许多通过使用离子纳米结构来控制纳米电化学现象的纳米离子器件。这里描述了使用离子纳米结构通过使用离子导体或混合导体作为器件材料来局部控制离子传输和电化学反应。更远,介绍了使用纳米结构创建的纳米离子器件的结构,以及它们的各种电、磁和光学功能。预计这种纳米离子器件将补充传统的电子器件,并使信息和通信技术的进一步发展成为可能。
更新日期:2021-10-27
中文翻译:
离子纳米结构实现的各种功能设备,补充电子元件
为了实现信息和通信设备的不断发展,开发具有新工作原理的设备以克服传统电子设备的功能和性能限制也很重要,例如由半导体材料制成的晶体管。具有这一前景的一组设备是纳米离子设备,它通过在固体中使用局部离子传输和电化学反应来操作。已经创建了许多通过使用离子纳米结构来控制纳米电化学现象的纳米离子器件。这里描述了使用离子纳米结构通过使用离子导体或混合导体作为器件材料来局部控制离子传输和电化学反应。更远,介绍了使用纳米结构创建的纳米离子器件的结构,以及它们的各种电、磁和光学功能。预计这种纳米离子器件将补充传统的电子器件,并使信息和通信技术的进一步发展成为可能。
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