Fabrication of nanoswitches is expected to hasten the integration of nanocomponents to electronics, However, current organic nanoswitches in development are slow and are difficult to produce. To address this, Nan Loh Yang, director of Center for Engineered Polymeric Materials (CEPM), College of Staten Island and his research group have developed a conductive polymer nanocrystal system that has switching times on the order of milliseconds. Moreover, a key aspect of this development is that it is scalable and thus this invention has offered hope to design engineers working with nano-scale electronic devices.The conductive polymer nanoswitches developed by Yang's group are especially suited for use in nanoelectronics and nanocircuitry and have switching speeds that are several orders of magnitude faster than conventional organic switching materials.
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机译:纳米开关的制造有望加速将纳米组件集成到电子产品中。但是,当前正在开发的有机纳米开关速度缓慢且难以生产。为了解决这个问题,史坦顿岛大学工程聚合物材料中心(CEPM)主任Nan Loh Yang和他的研究小组开发了一种导电聚合物纳米晶体系统,该系统的切换时间约为毫秒。此外,这项开发的关键方面在于它具有可扩展性,因此,本发明为设计与纳米级电子设备合作的工程师提供了希望。 r n Yang小组开发的导电聚合物纳米开关特别适用于纳米电子学和电子学。纳米电路,其开关速度比传统的有机开关材料快几个数量级。
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