Graphene/silicon CMOS hybrid integrated circuits (ICs) should provide powerful functions which combines the ultra-high carrier mobility of graphene and the sophisticated functions of silicon CMOS ICs. But it is difficult to integrate these two kinds of heterogeneous devices on a single chip. In this work a low temperature process is developed for integrating graphene devices onto silicon CMOS ICs for the first time, and a high performance graphene/CMOS hybrid Hall IC is demonstrated. Signal amplifying/process ICs are manufactured via commercial 0.18 um silicon CMOS technology, and graphene Hall elements (GHEs) are fabricated on top of the passivation layer of the CMOS chip via a low-temperature micro-fabrication process. The sensitivity of the GHE on CMOS chip is further improved by integrating the GHE with the CMOS amplifier on the Si chip. This work not only paves the way to fabricate graphene/Si CMOS Hall ICs with much higher performance than that of conventional Hall ICs, but also provides a general method for scalable integration of graphene devices with silicon CMOS ICs via a low-temperature process.
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机译:石墨烯/硅CMOS混合集成电路(IC)应提供强大的功能,将石墨烯的超高载流子迁移率与硅CMOS IC的复杂功能结合在一起。但是很难将这两种异构设备集成在单个芯片上。在这项工作中,开发了一种低温工艺,用于将石墨烯器件首次集成到硅CMOS IC上,并展示了一种高性能的石墨烯/ CMOS混合霍尔IC。信号放大/处理IC通过商用0.18um硅CMOS技术制造,石墨烯霍尔元件(GHE)通过低温微制造工艺制造在CMOS芯片的钝化层之上。通过将GHE与Si芯片上的CMOS放大器集成在一起,可以进一步提高CMOS芯片上的GHE的灵敏度。这项工作不仅为制造性能比传统霍尔IC高得多的石墨烯/ Si CMOS霍尔IC铺平了道路,而且为通过低温工艺将石墨烯器件与硅CMOS IC进行可扩展集成提供了一种通用方法。
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