Victor Roldugin scite author profile

The attempts to develop efficient methods of solar energy conversion into chemical fuel are ongoing amid climate changes associated with global warming. Photo-electrocatalytic (PEC) water splitting and CO2 reduction reactions show high potential to tackle this challenge. However, the development of economically feasible solutions of PEC solar energy conversion requires novel efficient and stable earth-abundant nanostructured materials. The latter are hardly available without detailed understanding of the local atomic and electronic structure dynamics and mechanisms of the processes occurring during chemical reactions on the catalyst–electrolyte interface. This review considers recent efforts to study photo-electrocatalytic reactions using in situ and operando synchrotron spectroscopies. Particular attention is paid to the operando reaction mechanisms, which were established using X-ray Absorption (XAS) and X-ray Photoelectron (XPS) Spectroscopies. Operando cells that are needed to perform such experiments on synchrotron are covered. Classical and modern theoretical approaches to extract structural information from X-ray Absorption Near-Edge Structure (XANES) spectra are discussed.

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One-step electrochemical synthesis of γ-Fe2O3@MIL-88a magnetic composite for heterogeneous Fenton-like catalysis

Kuzharov

Gritsai

Butova

et al. 2022

Ceramics International

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Victor Roldugin

Platinum single-atom catalyst with self-adjustable valence state for large-current-density acidic water oxidation

Operando Photo-Electrochemical Catalysts Synchrotron Studies

One-step electrochemical synthesis of γ-Fe2O3@MIL-88a magnetic composite for heterogeneous Fenton-like catalysis

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