通过色散相互作用增强能量转移过程

Boosting Energy-Transfer Processes via Dispersion Interactions.

作者信息

Cerveri Alessandro, Scarica Gabriele, Sparascio Sara, Hoch Matteo, Chiminelli Maurizio, Tegoni Matteo, Protti Stefano, Maestri Giovanni

机构信息

Department of Chemistry, Life Sciences and Environmental Sustainability, Università di Parma, Parco Area delle Scienze 17/A, 43124, Parma, Italy.

PhotoGreen Lab, Department of Chemistry, Università di Pavia, Via Taramelli 10, 27100, Pavia, Italy.

出版信息

Chemistry. 2024 Mar 12;30(15):e202304010. doi: 10.1002/chem.202304010. Epub 2024 Jan 29.

DOI:10.1002/chem.202304010

PMID:38224554

Abstract

The generation of open-shell intermediates under mild conditions has opened broad synthetic opportunities during this century. However, these reactive species often require a case specific and tailored tuning of experimental parameters in order to efficiently convert substrates into products. We report a general approach that can overcome these ubiquitous limitations for several visible-light promoted energy-transfer processes. The use of either naphthalene (5-20 equiv.) or simple binaphthyl derivatives (10-30 mol %) greatly increases their efficiency, giving rise to a new strategy for catalysis. The trend is consistent among different media, photocatalysts, light sources and substrates, allowing one to improve existing methods, to more easily optimize conditions for new ones, and, moreover, to disclose otherwise inaccessible reaction pathways.

摘要

本世纪以来，在温和条件下生成开壳中间体为合成提供了广阔的机会。然而，这些活性物种通常需要针对具体情况对实验参数进行特定的调整，以便有效地将底物转化为产物。我们报道了一种通用方法，该方法可以克服几种可见光促进的能量转移过程中普遍存在的这些限制。使用萘（5 - 20当量）或简单的联萘衍生物（10 - 30摩尔％）可大大提高其效率，从而产生一种新的催化策略。这种趋势在不同的介质、光催化剂、光源和底物中都是一致的，这使得人们能够改进现有方法，更轻松地优化新方法的条件，而且还能揭示其他难以实现的反应途径。

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通过色散相互作用增强能量转移过程

Boosting Energy-Transfer Processes via Dispersion Interactions.

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