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引用次数: 0
摘要
固态光催化的理论建模是重要课题之一,因为迄今为止已开发出多种有用的光催化剂。在这项工作中,我们利用基于团簇模型的密度泛函理论(DFT)/时间相关(TD)DFT 计算,研究了实验开发的酒精在氧化铌(Nb2O5)上的光氧化机理。酒精吸附和羟基向表面的第一次氢转移发生在基态,而 CH 的第二次氢转移则在紫外线或可见光照射下的激发态进行。我们确定了自旋交叉,并解决了低洼三重态的反应途径。可见光区域的光吸收被描述为从酒精的 O 2p 到 Nb2O5 表面的 Nb 4d 的电荷转移转变。自旋密度和自然种群分析表明,自旋密度在羰基化合物分子中产生,并消散到表面界面,这在一定程度上解释了电子顺磁共振测量。实验证实,决定速率的步骤是羰基化合物和水分子的解吸,这与实验速率方程分析一致。本研究结果和理论模型将为固态光催化的进一步研究提供有用信息。
Theoretical study on the mechanism of alcohol photooxidation on Nb2O5 surface
Theoretical modeling of the solid-state photocatalysis is one of the important issues as various useful photocatalysts have been developed to date. In this work, we investigated the mechanism of the alcohol photooxidation on niobium oxide (Nb2O5) which was experimentally developed, using the density functional theory (DFT)/time-dependent (TD)DFT calculations based on the cluster model. The alcohol adsorption and the first hydrogen transfer from hydroxy group to surface occur in the ground state, while the second hydrogen transfer from CH proceeds in the excited states during the photoirradiation of UV or visible light. The spin crossing was identified and the low-lying triplet states were solved for the reaction pathway. The photoabsorption in the visible light region was characterized as the charge transfer transition from O 2p of alcohol to Nb 4d of the Nb2O5 surface. The spin density and the natural population analysis indicated the generation of spin density in the moiety of carbonyl compound and its dissipation to the interface of the surface, which partly explains the electron paramagnetic resonance measurement. It was confirmed that the rate determining step is the desorption of carbonyl compound and water molecule in agreement with the experimental rate equation analysis. The present findings with the theoretical modeling will provide useful information for the further studies of the solid-state photocatalysis.
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This distinguished journal publishes articles concerned with all aspects of computational chemistry: analytical, biological, inorganic, organic, physical, and materials. The Journal of Computational Chemistry presents original research, contemporary developments in theory and methodology, and state-of-the-art applications. Computational areas that are featured in the journal include ab initio and semiempirical quantum mechanics, density functional theory, molecular mechanics, molecular dynamics, statistical mechanics, cheminformatics, biomolecular structure prediction, molecular design, and bioinformatics.
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