仿生肽纳米管中的强压电性。

Strong piezoelectricity in bioinspired peptide nanotubes.

机构信息

Department of Ceramics and Glass Engineering , University of Aveiro, 3810-193 Aveiro, Portugal.

出版信息

ACS Nano. 2010 Feb 23;4(2):610-4. doi: 10.1021/nn901327v.

PMID:20131852

Abstract

We show anomalously strong shear piezoelectric activity in self-assembled diphenylalanine peptide nanotubes (PNTs), indicating electric polarization directed along the tube axis. Comparison with well-known piezoelectric LiNbO(3) and lateral signal calibration yields sufficiently high effective piezoelectric coefficient values of at least 60 pm/V (shear response for tubes of approximately 200 nm in diameter). PNTs demonstrate linear deformation without irreversible degradation in a broad range of driving voltages. The results open up a wide avenue for developing new generations of "green" piezoelectric materials and piezonanodevices based on bioactive tubular nanostructures potentially compatible with human tissue.

摘要

我们在自组装的二苯丙氨酸肽纳米管（PNTs）中展示出异常强的切向压电活性，表明电偶极矩沿管轴方向。与著名的压电 LiNbO(3)和横向信号校准的比较表明，有效压电系数值至少为 60 pm/V（对于直径约为 200nm 的管）。PNTs 在很宽的驱动电压范围内表现出线性变形，没有不可逆的降解。这些结果为开发新一代基于生物活性管状纳米结构的“绿色”压电材料和 piezonanodevices 开辟了广阔的道路，这些材料可能与人体组织兼容。

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仿生肽纳米管中的强压电性。

Strong piezoelectricity in bioinspired peptide nanotubes.

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