Bifunctional Electrocatalysts for Overall and Hybrid Water Splitting

Chemical Reviews, Journal Year: 2024, Volume and Issue: 124(7), P. 3694 - 3812

Published: March 22, 2024

Electrocatalytic water splitting driven by renewable electricity has been recognized as a promising approach for green hydrogen production. Different from conventional strategies in developing electrocatalysts the two half-reactions of (e.g., and oxygen evolution reactions, HER OER) separately, there growing interest designing bifunctional electrocatalysts, which are able to catalyze both OER. In addition, considering high overpotentials required OER while limited value produced oxygen, is another rapidly exploring alternative oxidation reactions replace hybrid toward energy-efficient generation. This Review begins with an introduction on fundamental aspects splitting, followed thorough discussion various physicochemical characterization techniques that frequently employed probing active sites, emphasis reconstruction during redox electrolysis. The design, synthesis, performance diverse based noble metals, nonprecious metal-free nanocarbons, overall acidic alkaline electrolytes, thoroughly summarized compared. Next, their application also presented, wherein anodic include sacrificing agents oxidation, pollutants oxidative degradation, organics upgrading. Finally, concise statement current challenges future opportunities presented hope guiding endeavors quest sustainable

Language: Английский

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Advances in MOFs and their derivatives for non‑noble metal electrocatalysts in water splitting

Coordination Chemistry Reviews, Journal Year: 2024, Volume and Issue: 503, P. 215639 - 215639

Published: Jan. 8, 2024

Language: Английский

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Heteroatom-doped MXenes as electrocatalysts for hydrogen evolution reaction: A review on the recent advances, mechanisms and prospects

Chemical Engineering Journal, Journal Year: 2024, Volume and Issue: 483, P. 149107 - 149107

Published: Jan. 28, 2024

Language: Английский

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In Situ Assembly of a Superaerophobic CoMn/CuNiP Heterostructure as a Trifunctional Electrocatalyst for Ampere-Level Current Density Urea-Assisted Hydrogen Production

ACS Applied Materials & Interfaces, Journal Year: 2024, Volume and Issue: 16(7), P. 8717 - 8732

Published: Feb. 7, 2024

Urea electrolysis is a promising energy-efficient hydrogen production process with environmental benefits, but the lack of efficient and sustainable ampere-level current density electrocatalysts fabricated through simple methods major challenge for commercialization. Herein, we present an stable heterostructure electrocatalyst full urea water in convenient time-efficient preparation manner. Overall, superhydrophilic/superaerophobic CoMn/CuNiP/NF exhibits exceptional performance evolution reaction (HER) (-33.8, -184.4, -234.8 mV at -10, -500, -1000 mA cm

Language: Английский

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A comprehensive review on the role of hydrogen in renewable energy systems

International Journal of Hydrogen Energy, Journal Year: 2024, Volume and Issue: 82, P. 923 - 951

Published: Aug. 6, 2024

Language: Английский

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Recent advancements in noble-metal electrocatalysts for alkaline hydrogen evolution reaction

Chinese Chemical Letters, Journal Year: 2024, Volume and Issue: unknown, P. 109557 - 109557

Published: Jan. 1, 2024

Language: Английский

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Recent advances in hydrogen production coupled with alternative oxidation reactions

Coordination Chemistry Reviews, Journal Year: 2024, Volume and Issue: 509, P. 215777 - 215777

Published: March 26, 2024

Language: Английский

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Rational design of local microenvironment for electrocatalytic water splitting

Inorganic Chemistry Frontiers, Journal Year: 2024, Volume and Issue: 11(14), P. 4080 - 4106

Published: Jan. 1, 2024

This summary describes the effects of wettability, local pH, interfacial water structure, and electrolyte composition on interface reactant compositions, key intermediate adsorption, reaction kinetics.

Language: Английский

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Enhancing Electrocatalytic Activity Through Targeted Local Electrolyte Micro‐Environment

Advanced Functional Materials, Journal Year: 2025, Volume and Issue: unknown

Published: Jan. 10, 2025

Abstract The local electrolyte micro‐environment surrounding the catalyst reaction center, including critical factors such as pH, reactant concentration, and electric field, plays a decisive role in electrocatalytic reactions water splitting. Recently, this topic has garnered significant attention due to its potential significantly enhance catalytic performance. While various strategies optimize processes have been explored, deliberate control over fundamental principles guiding these adjustments remain their early stages of development. This review provides comprehensive examination key efforts aimed at designing tailoring localized micro‐environments improve It discusses advances micro‐environmental design, methodologies for evaluating shifts, mechanistic insights driving developments. Additionally, highlights existing challenges prospective industrial applications strategies. By offering detailed analysis recent developments, aims equip researchers with practical knowledge on controlling micro‐environments, thereby accelerating progress toward real‐world processes.

Language: Английский

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Electrocatalytic hydrogen evolution with a copper porphyrin bearing meso-(o-carborane) substituents

Chemical Communications, Journal Year: 2023, Volume and Issue: 59(72), P. 10777 - 10780

Published: Jan. 1, 2023

A newly designed copper complex of 5,15-bis(pentafluorophenyl)-10,20-bis(o-carborane)porphyrin (1) was synthesized and tested for the electrocatalytic hydrogen evolution reaction (HER). In acetonitrile, 1 much more efficient than Cu 5,15-bis(pentafluorophenyl)-10,20-diphenylporphyrin (2) HER by shifting catalytic wave to anodic direction 190 mV. aqueous media, also outperformed 2 achieving higher current densities under smaller overpotentials. This enhancement attributed aromatic strong electron-withdrawing properties o-carborane groups. work is significant address crucial effects meso-(o-carborane) substituents metal porphyrins on boosting HER.

Language: Английский

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