晶体分子机器：迈向固态动力学与功能的探索

Crystalline molecular machines: a quest toward solid-state dynamics and function.

作者信息

Khuong Tinh-Alfredo V, Nuñez Jose E, Godinez Carlos E, Garcia-Garibay Miguel A

机构信息

Department of Chemistry and Biochemistry, University of California-Los Angeles, Los Angeles, California 90095-1569, USA.

出版信息

Acc Chem Res. 2006 Jun;39(6):413-22. doi: 10.1021/ar0680217.

DOI:10.1021/ar0680217

PMID:16784219

Abstract

Complex molecular machinery may be envisioned as densely packed, multicomponent, self-assembling systems built with high structural precision to control the dynamics of one or more internal degrees of freedom. With molecular gyroscopes as a test, we describe a general strategy to design crystals capable of supporting structurally programmed molecular motions, a practical approach to their synthesis, convenient strategies to characterize their solid-state dynamics, and potential applications based on polar structures responding collectively to external fields.

摘要

复杂的分子机制可被设想为紧密堆积的多组分自组装系统，其构建具有高度的结构精度，以控制一个或多个内部自由度的动力学。以分子陀螺仪作为测试对象，我们描述了一种设计能够支持结构编程分子运动的晶体的通用策略、其合成的实用方法、表征其固态动力学的便捷策略，以及基于极性结构对外部场集体响应的潜在应用。

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晶体分子机器：迈向固态动力学与功能的探索

Crystalline molecular machines: a quest toward solid-state dynamics and function.

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