基于实践的有机光催化剂紫外可见光谱预测基准策略**

IF 6.1 Q1 CHEMISTRY, MULTIDISCIPLINARY Chemistry methods : new approaches to solving problems in chemistry Pub Date : 2023-01-20 DOI:10.1002/cmtd.202200069
Dr. Péter Pál Fehér, Dr. Ádám Madarász, Dr. András Stirling
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引用次数: 2

摘要

通过这项工作,我们希望通过提出可靠的计算预筛选潜在光催化剂的方法来促进光催化的进一步发展。为此,我们开发了一种新的基准策略,并应用它来评估两种波函数和几种密度泛函理论(DFT)方法对最近开发的有机光催化剂分子的紫外-可见吸收光谱的预测。我们的基准框架的新颖之处在于,它侧重于评估计算方法在现实世界中的适用性,而不会惩罚那些对光谱形状没有贡献的错误。我们采用了一种光谱拟合过程,其中计算的激发与高斯函数卷积,使用两个参数进行展宽和波长缩放。这样,大多数方法都可以充分地再现实验光谱,但它们需要对参数进行多少调整是不同的。总的来说,双混合(DSD-BLYP除外)是提供最高预测能力的最佳函数,因为它们几乎不需要缩放。它们在估计激发能方面特别好,几乎90%的拟合光谱落在±10%的标度窗口内。这与STEOM-DLPNO-CCSD相关波函数方法提供的精度水平相同。在成本效率方面,M06是功能最好的。在几乎所有计算代码中,它用更低的计算需求和可用性来补偿稍微不太一致的性能。因此,我们建议使用双杂化和M06官能团来预测新型有机光催化剂的紫外-可见光谱,并且我们还强调M06可以作为黑箱方法,即使是非计算化学专家也可以使用。开发的协议和用户友好的笔记本电脑,以协助分析在GitHub上可用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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A Practice-Oriented Benchmark Strategy to Predict the UV-Vis Spectra of Organic Photocatalysts**

With this work, we wish to facilitate further developments in photocatalysis by proposing reliable methods for the computational pre-screening of potential photocatalysts. To this end, we have developed a new benchmark strategy, and we have applied it to evaluate the predictions given by two wavefunction and several density functional theory (DFT) methods for the UV-vis absorption spectra of recently developed organic photocatalyst molecules. The novelty in our benchmark framework is that it focuses on evaluating the real-world applicability of computational methods and does not penalize errors that do not contribute to spectral shapes. We employ a spectral fitting process where the calculated excitations are convoluted with Gaussians using two parameters for broadening and wavelength scaling. This way, most methods can sufficiently reproduce the experimental spectra, but they differ in how much adjustment they require from the parameters. Overall, the double hybrids (with the notable exception of DSD-BLYP) are the best functionals that offer the highest predictive power as they require practically no scaling. They are exceptionally good in estimating the excitation energies with almost 90 % of the fitted spectra falling into the ±10 % scaling window. This is the same level of accuracy as provided by the STEOM-DLPNO-CCSD correlated wavefunction method. In terms of cost efficiency, M06 emerges as the best functional. It compensates a slightly less consistent performance with lower computational demand and availability in nearly all computational codes. Therefore, we recommend the use of double-hybrid and M06 functionals for UV-vis spectrum prediction of novel organic photocatalysts, and we also highlight that M06 can be used as a black-box method even by those who are non-experts in computational chemistry. The developed protocol and a user-friendly notebook to assist the analysis are available on GitHub.

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