超硅器件的纳米结构材料形成

2015 IEEE International Interconnect Technology Conference and 2015 IEEE Materials for Advanced Metallization Conference (IITC/MAM) Pub Date : 2015-05-18 DOI:10.1109/IITC-MAM.2015.7325668

H. L. Chang, C. T. Chang, C. Kuo

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引用次数: 0

摘要

超越硅的CMOS技术是当前下一代晶体管面临的挑战。随着对纳米级器件需求的增加，操纵电子元件的能力变得至关重要。通过微波等离子体化学气相沉积或电子回旋共振沉积，在CH4/H2气体下将催化辅助CNTs集成到沟槽、空穴、平行板中。沟槽和平行板用于制造栅极，而孔用于进行互连。结果表明，生长的碳纳米管的取向受图案几何形状的支配。场发射结果表明，在3.97和6.30 V/um下，碳纳米管具有良好的电子发射性能，发射密度均超过ImA/cm2，表明碳纳米管场效应晶体管具有较高的电子发射效率。介绍了Fe、Ni和CoSi2的生长模型及其在纳米电子学中的应用。

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Nanostructured material formation for beyond Si devices

Beyond Si CMOS technology is the current challenging for next generation transistor. As demand for nano-scaled devices increase, the ability to manipulate the building blocks of electronic is essential. Catalytic-assisted CNTs are integrated into trenches, holes, parallel plates under CH4/H2 gases by microwave plasma chemical vapor deposition or electron cyclotron resonance deposition. The trench and parallel plates are used to fabricate for gate electrodes, while the holes are used to make interconnections. Results indicate the orientation of grown CNTs is dominated by pattern geometry. The field emission results show that the CNTs exhibit robust electronic properties with emission densities of over ImA/cm2 at 3.97 and 6.30 V/um indicating the high electron emission efficiency as the CNT field effect transistor application. The growth models of Fe, Ni and CoSi2 and application for nanoelectronics are purposed.

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2015 IEEE International Interconnect Technology Conference and 2015 IEEE Materials for Advanced Metallization Conference (IITC/MAM)

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