深孔转移导致 DNA 发夹中超快的电荷迁移。

Deep-hole transfer leads to ultrafast charge migration in DNA hairpins.

机构信息

Department of Chemical Engineering, Delft University of Technology, 2628 BL Delft, The Netherlands.

Department of Chemistry, Northwestern University, Evanston, Illinois 60208-3113, USA.

出版信息

Nat Chem. 2016 Nov;8(11):1015-1021. doi: 10.1038/nchem.2590. Epub 2016 Aug 15.

DOI:10.1038/nchem.2590

PMID:27768107

Abstract

Charge transport through the DNA double helix is of fundamental interest in chemistry and biochemistry, but also has potential technological applications such as for DNA-based nanoelectronics. For the latter, it is of considerable interest to explore ways to influence or enhance charge transfer. In this Article we demonstrate a new mechanism for DNA charge transport, namely 'deep-hole transfer', which involves long-range migration of a hole through low-lying electronic states of the nucleobases. Here, we demonstrate, in a combined experimental and theoretical study, that it is possible to achieve such transfer behaviour by changing the energetics of charge injection. This mechanism leads to an enhancement in transfer rates by up to two orders of magnitude and much weaker distance dependence. This transfer is faster than relaxation to the lowest-energy state, setting this mechanism apart from those previously described. This opens up a new direction to optimize charge transfer in DNA with unprecedented charge-transfer rates.

摘要

电荷通过 DNA 双螺旋的输运在化学和生物化学中具有重要的意义，同时在基于 DNA 的纳米电子学等技术领域也有潜在的应用。对于后者，探索影响或增强电荷转移的方法具有相当大的意义。在本文中，我们展示了 DNA 电荷输运的一种新机制，即“深孔转移”，它涉及通过碱基的低能电子态进行空穴的长程迁移。在这里，我们通过结合实验和理论研究证明，通过改变电荷注入的能量学，有可能实现这种转移行为。这种机制可将转移速率提高两个数量级以上，同时距离依赖性大大减弱。这种转移速度比弛豫到最低能量状态更快，使这种机制有别于之前描述的机制。这为优化 DNA 中的电荷转移开辟了一个新的方向，有望实现前所未有的电荷转移速率。

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深孔转移导致 DNA 发夹中超快的电荷迁移。

Deep-hole transfer leads to ultrafast charge migration in DNA hairpins.

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