摘要
Significance: This review relates to artificial redox-driven molecular devices. The advantages of using very simple chemical building blocks for the bottom-up design of nanoleveled functional motors and the importance of the unidirectionality of a switching process for the development of redox-driven molecular motors are discussed. Furthermore, the crucial difference between artificial molecular switches and motors is explained. Recent Advances: This review discusses few selected examples of red
摘要译文
意义:本综述涉及人造氧化还原驱动的分子装置。讨论了使用非常简单的化学积木的优点,用于纳米螺纹功能电机的自下而上设计以及用于开发用于开发氧化还原的分子电机的切换过程的单向性的重要性。此外,解释了人造分子开关和电动机之间的关键差异。最近的进展:此评论讨论了少数选定的红色示例
Christina Tepper;Gebhard Haberhauer.. Artificial Redox-Driven Directionally Controlled Switches As a Basis for Redox-Driven Molecular Motors[J]. Antioxidants & Redox Signaling, 2013,19(15): 1783-1791