PtOCl(OH)(H2O) 配合物在氧化还原条件下：理论水平对热力学稳定性的影响。

PtO Cl (OH) (H O) Complexes under Oxidative and Reductive Conditions: Impact of the Level of Theory on Thermodynamic Stabilities.

机构信息

IFP Energies Nouvelles, Rond-point de l'échangeur de Solaize, BP 3-69360, Solaize, France.

Univ Lyon, ENS de Lyon, CNRS, Université Claude Bernard Lyon 1, Laboratoire de Chimie UMR 5182, 69342, Lyon, France.

出版信息

Chemphyschem. 2023 Feb 1;24(3):e202200711. doi: 10.1002/cphc.202200711. Epub 2022 Nov 4.

DOI:10.1002/cphc.202200711

PMID:36216780

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10100086/

Abstract

Platinum-based catalysts with Cl , OH , O and H O ligands, are involved in many industrial processes. Their final chemical properties are impacted by calcination and reduction applied during the preparation and activation steps. We investigate their stability under these reactive conditions with density functional theory (DFT). We benchmark various functionals (PBE-dDsC, optPBE, B3LYP, HSE06, PBE0, TPSS, RTPSS and SCAN) against ACFDT-RPA. PBE-dDsC is well adapted, although hybrid functionals are more accurate for redox reactions. Thermodynamic phase diagrams are determined by computing the chemical potential of the species as a function of temperature and partial pressures of H O, HCl, O and H . The stability and nature of the Pt species are highly sensitive to the activation conditions. Under O , high temperatures favour PtO while under H , platinum is easily reduced to Pt(0). Chlorine modifies the coordination sphere of platinum during calcination by stabilizing PtCl and shifts the reduction of platinum to higher temperatures under H .

摘要

含 Cl、OH、O 和 H₂O 配体的铂基催化剂参与了许多工业过程。它们的最终化学性质受到制备和活化步骤中煅烧和还原的影响。我们使用密度泛函理论 (DFT) 研究了它们在这些反应条件下的稳定性。我们使用各种泛函（PBE-dDsC、optPBE、B3LYP、HSE06、PBE0、TPSS、RTPSS 和 SCAN）与 ACFDT-RPA 进行基准测试。PBE-dDsC 适配性很好，尽管对于氧化还原反应，混合泛函更准确。通过计算物种的化学势随温度和 H₂O、HCl、O 和 H 的分压的变化来确定热力学相图。Pt 物种的稳定性和性质对活化条件非常敏感。在 O 下，高温有利于 PtO，而在 H 下，铂很容易被还原为 Pt(0)。氯在煅烧过程中通过稳定 PtCl 来改变铂的配位环境，并在 H 下将铂的还原温度提高到更高。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0da0/10100086/ebc232f87015/CPHC-24-0-g003.jpg

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PtOCl(OH)(H2O) 配合物在氧化还原条件下：理论水平对热力学稳定性的影响。

PtO Cl (OH) (H O) Complexes under Oxidative and Reductive Conditions: Impact of the Level of Theory on Thermodynamic Stabilities.

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