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Literature DB >> 31743560

Regulating the Spin State of Fe^III by Atomically Anchoring on Ultrathin Titanium Dioxide for Efficient Oxygen Evolution Electrocatalysis.

Guoqiang Shen^1,2, Rongrong Zhang^1,2, Lun Pan^1,2, Fang Hou^1,2, Yingjie Zhao¹, Zeyu Shen¹, Wenbo Mi³, Chengxiang Shi^1,2, Qingfa Wang^1,2, Xiangwen Zhang^1,2, Ji-Jun Zou^1,2.

Abstract

Ferric oxides and (oxy)hydroxides, although plentiful and low-cost, are rarely considered for oxygen evolution reaction (OER) owing to the too high spin state (eg filling ca. 2.0) suppressing the bonding strength with reaction intermediates. Now, a facile adsorption-oxidation strategy is used to anchor FeIII atomically on an ultrathin TiO2 nanobelt to synergistically lower the spin state (eg filling ca. 1.08) to enhance the adsorption with oxygen-containing intermediates and improve the electro-conductibility for lower ohmic loss. The electronic structure of the catalyst is predicted by DFT calculation and perfectly confirmed by experimental results. The catalyst exhibits superior performance for OER with overpotential 270 mV @10 mA cm-2 and 376 mV @100 mA cm-2 in alkaline solution, which is much better than IrO2 /C and RuO2 /C and is the best iron-based OER catalyst free of active metals such as Ni, Co, or precious metals.

Entities: Chemical Gene

Keywords: electrocatalysis; iron; oxygen evolution reaction; spin states; titanium dioxide

Year: 2019 PMID： 31743560 DOI： 10.1002/anie.201913080

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

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Cited

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