Themed collection Energy Advances – 2023 Outstanding Papers

11 items
Open Access Perspective

From material properties to device metrics: a data-driven guide to battery design

This perspective highlights the material properties, cell design decisions, and manufacturing costs with the biggest influence on the energy, power, cost, lifetime, and safety of a battery.

Graphical abstract: From material properties to device metrics: a data-driven guide to battery design
From the themed collection: Energy Advances Recent Review Articles
Open Access Review Article

Machine learning in energy chemistry: introduction, challenges and perspectives

This review explores machine learning's role in energy chemistry, spanning organic photovoltaics, perovskites, catalysis, and batteries, highlighting its potential to accelerate eco-friendly, sustainable energy development.

Graphical abstract: Machine learning in energy chemistry: introduction, challenges and perspectives
From the themed collection: Energy Advances Recent Review Articles
Open Access Review Article

Two-dimensional materials for photoelectrochemical water splitting

This review summarizes the superiorities and utilizations of 2D materials for photoelectrochemical water splitting including transition metal dichalcogenides, graphene, graphdiyne, black phosphorus, layered double hydroxides, g-C3N4, and MXenes.

Graphical abstract: Two-dimensional materials for photoelectrochemical water splitting
Open Access Review Article

Defect engineering in antimony selenide thin film solar cells

The complicated and unconventional defect chemistry of Sb2Se3 largely dictates photovoltaic device performance. This comprehensive review aims to increase understanding of defect engineering, which is essential for further efficiency improvements.

Graphical abstract: Defect engineering in antimony selenide thin film solar cells
From the themed collection: Energy Advances: Highlight UK & Europe
Open Access Communication

Improved electrode reversibility of anionic redox with highly concentrated electrolyte solution and aramid-coated polyolefin separator

High-capacity electrode materials made of abundant elements are necessary to develop cost-effective energy storage applications.

Graphical abstract: Improved electrode reversibility of anionic redox with highly concentrated electrolyte solution and aramid-coated polyolefin separator
Open Access Communication

Improved reversibility of lithium deposition and stripping with high areal capacity under practical conditions through enhanced wettability of the polyolefin separator to highly concentrated electrolytes

Highly concentrated electrolytes (HCEs) have attracted great interest as electrolyte candidates for Li metal batteries because of their functionalities in improving the reversibility and cycling performance of the Li metal negative electrode.

Graphical abstract: Improved reversibility of lithium deposition and stripping with high areal capacity under practical conditions through enhanced wettability of the polyolefin separator to highly concentrated electrolytes
Open Access Paper

The impact of snow losses on solar photovoltaic systems in North America in the future

The percent change in solar photovoltaic potential lost due to snow cover for the optimistic SSP126 scenarios between 2019 and 2040.

Graphical abstract: The impact of snow losses on solar photovoltaic systems in North America in the future
From the themed collection: Energy Advances – 2023 Outstanding Papers
Open Access Paper

Beyond energy density: flow battery design driven by safety and location

Using satellite imagery we show that the installation footprint of grid-scale lithium-ion batteries is often comparable to much less energy-dense technologies such as aqueous battery systems.

Graphical abstract: Beyond energy density: flow battery design driven by safety and location
From the themed collection: Flowable energy storage
Open Access Paper

Enhanced uranium extraction selectivity from seawater using dopant engineered layered double hydroxides

Selective uranium extraction from seawater by dopant engineered layered double hydroxide.

Graphical abstract: Enhanced uranium extraction selectivity from seawater using dopant engineered layered double hydroxides
From the themed collection: SDG 13: Climate Action
Open Access Paper

Enhancing low electronic conductivity materials in all active material electrodes through multicomponent architecture

Percolated electroactive material as electronically conductive network enables the high energy electroactive material with low intrinsic electronic conductivity at extremely high loading over 100 mg cm−2.

Graphical abstract: Enhancing low electronic conductivity materials in all active material electrodes through multicomponent architecture
From the themed collection: Energy Advances: Highlight USA & Canada
Open Access Paper

Effect of Ti1−xFexO2 photoanodes on the performance of dye-sensitized solar cells utilizing natural betalain pigments extracted from Beta vulgaris (BV)

Schematic illustration of light harvesting and role of Ti1−xFexO2 photoanodes in PCE enhancement. This enhanced PCE is ascribed to the increased surface adsorption and reduced charge recombination via new electron state creation with Fe3+ doping.

Graphical abstract: Effect of Ti1−xFexO2 photoanodes on the performance of dye-sensitized solar cells utilizing natural betalain pigments extracted from Beta vulgaris (BV)
From the themed collection: Energy Advances – 2023 Outstanding Papers
11 items

About this collection

We are delighted to announce our 2023 Outstanding Papers for Energy Advances. This collection celebrates the best contributions to our gold open access journal during our second year of publications. These leading papers were selected by the editorial board, the advisory board and the editorial office based on the science presented, impact throughout the year and potential future impact. 

Energy Advances embraces exciting energy science research, from central concepts to research at the nexus of sub-disciplines, where boundaries are crossed, and communities collaborate to inspire new thinking. 

To discover more about our journal, visit our website.

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