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首页> 外文期刊>Carbon: An International Journal Sponsored by the American Carbon Society >Synthesis and properties of an atomically thin carbon nanosheet similar to graphene and its promising use as an organic thin film transistor
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Synthesis and properties of an atomically thin carbon nanosheet similar to graphene and its promising use as an organic thin film transistor

机译:类似于石墨烯的原子薄碳纳米片的合成,性能及其在有机薄膜晶体管中的应用前景

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摘要

We synthesize an atomically thin carbon nanosheet (CNS) analogous to graphene with properties suitable for an organic thin film transistor (OTFT). The synthesis of graphene by chemical vapor deposition has serious drawbacks such as wrinkles, grain boundaries, and defects due to catalyst removal and transfer process. Here the CNS is directly synthesized on a silicon wafer by heat-treatment of spin-coated polyacrylonitrile and shows a higher electrical conductivity (>1600 S cm~(-1)) than that of chemically converted graphene. The CNS on glass, transferred from a silicon wafer, exhibits approximately 92% optical transmittance. We have used our CNS as the electrodes of OTFTs, and recorded a mobility (0.25-0.35 cm~2 V~(-1) s~(-1)) that exceeds that of gold electrodes (0.2-0.25 cm~2 V~(-1) s~9-10).
机译:我们合成了类似于石墨烯的原子薄碳纳米片(CNS),其性质适合于有机薄膜晶体管(OTFT)。通过化学气相沉积合成石墨烯具有严重的缺陷,例如皱纹,晶界和由于催化剂去除和转移过程而引起的缺陷。在此,CNS是通过旋涂聚丙烯腈的热处理直接在硅晶片上合成的,并且比化学转化的石墨烯具有更高的电导率(> 1600 S cm〜(-1))。从硅晶片上转移过来的玻璃上的CNS表现出大约92%的透光率。我们将CNS用作OTFT的电极,记录的迁移率(0.25-0.35 cm〜2 V〜(-1)s〜(-1))超过了金电极的迁移率(0.2-0.25 cm〜2 V〜 (-1)s〜9-10)。

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