碳纳米管
纳米技术
材料科学
数码产品
场效应晶体管
晶体管
平版印刷术
纳米光刻
光电子学
制作
化学
电气工程
电压
替代医学
物理化学
病理
工程类
医学
作者
Mengyu Zhao,Yahong Chen,Kexin Wang,Zhaoxuan Zhang,Jason K. Streit,Jeffrey Fagan,Jianshi Tang,Ming Zheng,Chaoyong Yang,Zhi Zhu,Wei Sun
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2020-05-21
卷期号:368 (6493): 878-881
被引量:158
标识
DOI:10.1126/science.aaz7435
摘要
Biofabricated semiconductor arrays exhibit smaller channel pitches than those created using existing lithographic methods. However, the metal ions within biolattices and the submicrometer dimensions of typical biotemplates result in both poor transport performance and a lack of large-area array uniformity. Using DNA-templated parallel carbon nanotube (CNT) arrays as model systems, we developed a rinsing-after-fixing approach to improve the key transport performance metrics by more than a factor of 10 compared with those of previous biotemplated field-effect transistors. We also used spatially confined placement of assembled CNT arrays within polymethyl methacrylate cavities to demonstrate centimeter-scale alignment. At the interface of high-performance electronics and biomolecular self-assembly, such approaches may enable the production of scalable biotemplated electronics that are sensitive to local biological environments.
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