Harnessing Reversible Electronic Energy Transfer: From Molecular Dyads to Molecular Machines

Denisov Sergey A.; Yu Shinlin; Pozzo Jean-Luc; Jonusauskas Gediminas; McClenaghan Nathan D.

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Harnessing Reversible Electronic Energy Transfer: From Molecular Dyads to Molecular Machines

机译：利用可逆的电子能量转移：从分子染料到分子机器

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Reversible electronic energy transfer (REET) may be instilled in bi-/multichromophoric molecule-based systems, following photoexcitation, upon judicious structural integration of matched chromophores. This leads to a new set of photophysical properties for the ensemble, which can be fully characterized by steady-state and time-resolved spectroscopic methods. Herein, we take a comprehensive look at progress in the development of this type of supermolecule in the last five years, which has seen systems evolve from covalently tethered dyads to synthetic molecular machines, exemplified by two different pseudorotaxanes. Indeed, REET holds promise in the control of movement in molecular machines, their assembly/disassembly, as well as in charge separation.

机译：明智地将匹配的生色团进行结构整合后，可在光激发后将可逆电子能量转移（REET）注入基于双色团/多色团分子的系统中。这导致了该集合的一组新的光物理性质，可以通过稳态和时间分辨光谱方法对其进行充分表征。在本文中，我们对过去五年中这类超分子的开发进展进行了全面研究，该系统已经从共价束缚的二元体系发展成为合成分子机器，以两种不同的假轮烷为代表。确实，REET在分子机器的运动控制，组装/拆卸以及电荷分离方面具有广阔的前景。

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《Chemphyschem: A European journal of chemical physics and physical chemistry》 |2016年第12期|共11页
作者
Denisov Sergey A.; Yu Shinlin; Pozzo Jean-Luc; Jonusauskas Gediminas; McClenaghan Nathan D.;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
foldaxanes; molecular machines; reversible electronic energy transfer; time-resolved spectroscopy; transition metal complexes;

机译：foldaxanes;分子机器;可逆电子能量转移;时间分辨光谱;过渡金属配合物;

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1. Harnessing Reversible Electronic Energy Transfer: From Molecular Dyads to Molecular Machines [J] . Denisov Sergey A., Yu Shinlin, Pozzo Jean-Luc, Chemphyschem: A European journal of chemical physics and physical chemistry . 2016,第12期

机译：利用可逆的电子能量转移：从分子染料到分子机器
2. Ultrafast Through-Space Electronic Energy Transfer in Molecular Dyads Built around Dynamic Spacer Units [J] . Raymond Ziessel, Patrycja Stachelek, Anthony Harriman, The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory . 2018,第18期

机译：超快通过空间电子能量传递在动态间隔单元周围内置的分子二元
3. Ultrafast Electronic Energy Transfer in an Orthogonal Molecular Dyad [J] . Wiebeler Christian, Plasser Felix, Hedley Gordon J., Journal of physical chemistry letters . 2017,第5期

机译：超速分子二元的超快电子能量转移
4. Intramolecular energy transfer in a two-photon absorbing naphtahlimide-triphenylamine dyad [C] . International Symposium on Biophotonics, Nanophotonics and Metamaterials . 2006

机译：在双光子吸收的萘甲酰酰亚胺 - 三苯胺二元的分子内能量转移
5. Molecular active plasmonics: Harnessing molecular machines for nanophotonic applications. [D] . Zheng, Yuebing. 2010

机译：分子活性等离子体：用于纳米光子应用的分子机器。
6. Vibrational coherence transfer in an electronically decoupled molecular dyad [O] . Felix Schweighöfer, Lars Dworak, Markus Braun, -1

机译：电子去耦分子二元组中的振动相干传递
7. Harnessing Reversible Electronic Energy Transfer: From Molecular Dyads to Molecular Machines [O] . Denisov, Sergey A., Yu, Shinlin, Pozzo, Jean-Luc, 2016

机译：利用可逆的电子能量转移：从分子染料到分子机器
8. Reversible Intermolecular Energy Transfer between Chromium(III) Complexes in Fluid Solution. [R] . Kane-Maguire, N. A. P., Toney, C. G., Swiger, B., 1977

机译：流体溶液中铬（III）配合物之间的可逆分子间能量转移。

Harnessing Reversible Electronic Energy Transfer: From Molecular Dyads to Molecular Machines

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