Structurally Precise Two-Transition-Metal Water Oxidation Catalysts: Quantifying Adjacent 3d Metals by Synchrotron X-Radiation Anomalous Dispersion Scattering

化学 等结构 催化作用 过渡金属 密度泛函理论 色散(光学) 氧化物 同步辐射 金属 多相催化 反应性(心理学) 化学物理 同步加速器 氧化态 结晶学 物理化学 计算化学 晶体结构 有机化学 量子力学 替代医学 核物理学 物理 医学 光学 病理
作者
Meilin Tao,Qiushi Yin,Alexey L. Kaledin,Natalie Uhlikova,Xinlin Lu,Ting Cheng,Yu‐Sheng Chen,Tianquan Lian,Yurii V. Geletii,Djamaladdin G. Musaev,John Bacsa,Craig L. Hill
出处
期刊:Inorganic Chemistry [American Chemical Society]
卷期号:61 (16): 6252-6262 被引量:10
标识
DOI:10.1021/acs.inorgchem.2c00446
摘要

Mixed 3d metal oxides are some of the most promising water oxidation catalysts (WOCs), but it is very difficult to know the locations and percent occupancies of different 3d metals in these heterogeneous catalysts. Without such information, it is hard to quantify catalysis, stability, and other properties of the WOC as a function of the catalyst active site structure. This study combines the site selective synthesis of a homogeneous WOC with two adjacent 3d metals, [Co2Ni2(PW9O34)2]10- (Co2Ni2P2) as a tractable molecular model for CoNi oxide, with the use of multiwavelength synchrotron X-radiation anomalous dispersion scattering (synchrotron XRAS) that quantifies both the location and percent occupancy of Co (∼97% outer-central-belt positions only) and Ni (∼97% inner-central-belt positions only) in Co2Ni2P2. This mixed-3d-metal complex catalyzes water oxidation an order of magnitude faster than its isostructural analogue, [Co4(PW9O34)2]10- (Co4P2). Four independent and complementary lines of evidence confirm that Co2Ni2P2 and Co4P2 are the principal WOCs and that Co2+(aq) is not. Density functional theory (DFT) studies revealed that Co4P2 and Co2Ni2P2 have similar frontier orbitals, while stopped-flow kinetic studies and DFT calculations indicate that water oxidation by both complexes follows analogous multistep mechanisms, including likely Co-OOH formation, with the energetics of most steps being lower for Co2Ni2P2 than for Co4P2. Synchrotron XRAS should be generally applicable to active-site-structure-reactivity studies of multi-metal heterogeneous and homogeneous catalysts.
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