Self-assembling peptide semiconductors

IF 44.7 1区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Science Pub Date : 2017-11-17 DOI:10.1126/science.aam9756

Kai Tao, Pandeeswar Makam, Ruth Aizen, Ehud Gazit

引用次数: 299

Abstract

Semiconductors are central to the modern electronics and optics industries. Conventional semiconductive materials bear inherent limitations, especially in emerging fields such as interfacing with biological systems and bottom-up fabrication. A promising candidate for bioinspired and durable nanoscale semiconductors is the family of self-assembled nanostructures comprising short peptides. The highly ordered and directional intermolecular π-π interactions and hydrogen-bonding network allow the formation of quantum confined structures within the peptide self-assemblies, thus decreasing the band gaps of the superstructures into semiconductor regions. As a result of the diverse architectures and ease of modification of peptide self-assemblies, their semiconductivity can be readily tuned, doped, and functionalized. Therefore, this family of electroactive supramolecular materials may bridge the gap between the inorganic semiconductor world and biological systems.

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自组装多肽半导体

半导体是现代电子和光学工业的核心。传统的半导体材料有其固有的局限性，尤其是在与生物系统连接和自下而上制造等新兴领域。由短肽组成的自组装纳米结构家族是生物启发型耐用纳米级半导体的理想候选材料。分子间π-π相互作用和氢键网络具有高度有序性和方向性，可在多肽自组装体中形成量子约束结构，从而减小超结构进入半导体区域的带隙。由于多肽自组装体的结构多样且易于修饰，因此其半导体性能可随时调整、掺杂和功能化。因此，这一系列电活性超分子材料可能成为无机半导体世界与生物系统之间的桥梁。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Science 综合性期刊-综合性期刊

CiteScore

61.10

自引率

0.90%

发文量

审稿时长

2.1 months

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