Themed collection EES Catalysis Hot Papers

17 items
Open Access Review Article

Crystalline carbon nitrides for photocatalysis

This review comprehensively summarizes the recent advances on crystalline carbon nitrides, including their preparation, optimization strategies, photocatalytic applications, as well as challenges and prospects.

Graphical abstract: Crystalline carbon nitrides for photocatalysis
From the themed collection: EES Catalysis Recent Review Articles
Open Access Review Article

Nanostructured single-atom catalysts derived from natural building blocks

The emerging single-atom catalysts derived from biomass sources to date have been comprehensively summarized and discussed, including synthesis strategies, various biomass precursors, catalytic applications, existing challenges, and perspectives.

Graphical abstract: Nanostructured single-atom catalysts derived from natural building blocks
From the themed collection: EES Catalysis Recent Review Articles
Open Access Review Article

Recent progress in understanding the catalyst layer in anion exchange membrane electrolyzers – durability, utilization, and integration

This review discusses recent insights in catalyst layer design strategies for anion exchange membrane water electrolyzers, including electrode design, catalyst/ionomer integration, operational variables, in situ diagnostics, and cell durability.

Graphical abstract: Recent progress in understanding the catalyst layer in anion exchange membrane electrolyzers – durability, utilization, and integration
From the themed collection: EES Catalysis Recent Review Articles
Open Access Review Article

Harnessing single-atom catalysts for CO2 electroreduction: a review of recent advances

We use an alchemical furnace as the main concept, with three pillars representing the general synthesis strategies for SACs. The four “elixirs” within the furnace chamber represent the diverse regulation strategies for SACs in CO2RR applications.

Graphical abstract: Harnessing single-atom catalysts for CO2 electroreduction: a review of recent advances
From the themed collection: EES Catalysis Recent Review Articles
Open Access Review Article

Single atom catalysts for water electrolysis: from catalyst-coated substrate to catalyst-coated membrane

This review summarizes the integration of single atom catalysts and catalyst-coated membrane architecture, exhibiting high utilization of SACs, facile ion transport, low interfacial resistance, and excellent scalability.

Graphical abstract: Single atom catalysts for water electrolysis: from catalyst-coated substrate to catalyst-coated membrane
From the themed collection: EES Catalysis Recent Review Articles
Open Access Review Article

Gas-phase errors in computational electrocatalysis: a review

In this review we show how DFT gas-phase errors affect computational models of electrocatalytic reactions.

Graphical abstract: Gas-phase errors in computational electrocatalysis: a review
From the themed collection: EES Catalysis Recent Review Articles
Open Access Review Article

Structural engineering of catalysts for ammonia electrosynthesis from nitrate: recent advances and challenges

Electrocatalytic nitrate reduction to ammonia offers a sustainable approach for nitrogenous waste upcycling. This review outlines recent advances in the design of electrocatalysts through cross-scale structural engineering.

Graphical abstract: Structural engineering of catalysts for ammonia electrosynthesis from nitrate: recent advances and challenges
From the themed collection: EES Catalysis Recent Review Articles
Open Access Review Article

Recent advances in tunable metal–support interactions for enhancing the photocatalytic nitrogen reduction reaction

Photocatalytic nitrogen reduction using inexhaustible solar energy has been considered as a promising strategy for NH3 synthesis. The design of heterogeneous photocatalysts with tunable MSIs is of great significance.

Graphical abstract: Recent advances in tunable metal–support interactions for enhancing the photocatalytic nitrogen reduction reaction
From the themed collection: EES Catalysis Recent Review Articles
Open Access Review Article

Photocatalytic inactivation technologies for bioaerosols: advances and perspective

Photocatalytic bioaerosol control systems are urgently needed to inactivate airborne pathogenic microorganisms to prevent secondary contamination.

Graphical abstract: Photocatalytic inactivation technologies for bioaerosols: advances and perspective
From the themed collection: EES Catalysis Recent Review Articles
Open Access Communication

Modified Cu–Zn–Al mixed oxide dual function materials enable reactive carbon capture to methanol

A novel RCC process using modified CZA DFMs to produce renewable MeOH is presented. K/CZA provides exceptionally high productivity of MeOH compared to previously reported attempts of RCC to MeOH.

Graphical abstract: Modified Cu–Zn–Al mixed oxide dual function materials enable reactive carbon capture to methanol
From the themed collection: Carbon Dioxide utilisation
Open Access Communication

Revealing the activity and selectivity of ppm level copper in gas diffusion electrodes towards CO and CO2 electroreduction

Cu is a unique metal that catalyzes carbon monoxide/carbon dioxide (CO/CO2) to form high-order hydrocarbons and oxygenates through the CO/CO2 reduction reaction (CO/CO2RR) at decent selectivity and productivity.

Graphical abstract: Revealing the activity and selectivity of ppm level copper in gas diffusion electrodes towards CO and CO2 electroreduction
From the themed collection: Carbon Dioxide utilisation
Open Access Paper

Microporous transport layers facilitating low iridium loadings in polymer electrolyte water electrolysis

The 3D structure of the anodic catalyst layer in polymer electrolyte water electrolysis is characterized and its shown that Pt-coated microporous transport layers help to reduce iridium loadings by maximizing catalyst utilization.

Graphical abstract: Microporous transport layers facilitating low iridium loadings in polymer electrolyte water electrolysis
From the themed collection: Hydrogen production
Open Access Paper

Structural ordering enhances highly selective production of acetic acid from CO2 at ultra-low potential

The production of acetic acid from CO2 is tuned by the atomic ordering and optimized chemical bonding in ternary chalcogenides.

Graphical abstract: Structural ordering enhances highly selective production of acetic acid from CO2 at ultra-low potential
From the themed collection: Carbon Dioxide utilisation
Open Access Paper

Effect of charge selective contacts on the quasi Fermi level splitting of CuGa3Se5 thin film photocathodes for hydrogen evolution and methylviologen reduction

The defect-copper chalcopyrite CuGa3Se5 is a promising photocathode material for solar hydrogen generation. Here we assess its performance with photoelectrochemical measurements and vibrating Kelvin probe surface photovoltage spectroscopy.

Graphical abstract: Effect of charge selective contacts on the quasi Fermi level splitting of CuGa3Se5 thin film photocathodes for hydrogen evolution and methylviologen reduction
From the themed collection: Hydrogen production
Open Access Paper

Pit-embellished low-valent metal active sites customize CO2 photoreduction to methanol

Controllable adjustment of low-valent metal active sites near the pits can promote the WO3−x surface charge delocalization, which dominates the formation of *CHO intermediates, thus customizing a unique reaction pathway for CO2 reduction to CH3OH.

Graphical abstract: Pit-embellished low-valent metal active sites customize CO2 photoreduction to methanol
From the themed collection: Carbon Dioxide utilisation
Open Access Paper

Descriptor-based identification of bimetallic-derived catalysts for selective activation of ethane with CO2

Ethane–CO2 reaction over a wide range of bimetallic-derived catalysts was adopted to unravel the structure–function relationship over two types of representative structures.

Graphical abstract: Descriptor-based identification of bimetallic-derived catalysts for selective activation of ethane with CO2
From the themed collection: Dehydrogenation and oxidation catalysis
Open Access Paper

High-efficiency electrosynthesis of urea over bacterial cellulose regulated Pd–Cu bimetallic catalyst

PdCu/CBC exhibited a remarkable Rurea of 763.8 ± 42.8 μg h−1 mgcat.−1 at −0.50 V (vs. RHE) and an exceptional FE of 69.1 ± 3.8% at −0.40 V (vs. RHE). Taking advantage of operando spectroscopy characterization, the C–N coupling mechanism was verified.

Graphical abstract: High-efficiency electrosynthesis of urea over bacterial cellulose regulated Pd–Cu bimetallic catalyst
From the themed collection: EES Catalysis Hot Papers
17 items

About this collection

We are delighted to highlight some of the most impactful and significant work published in EES Catalysis in 2023. These papers are already beginning to shape and influence the future direction of the field.

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