Table of Content

30 March 2018, Volume 1 Issue 1

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A Review of Carbon-Composited Materials as Air-Electrode Bifunctional Electrocatalysts for Metal-Air Batteries

Yan-Jie Wang, Baizeng Fang, Dan Zhang, Aijun Li, David P. Wilkinson, Anna Ignaszak, Lei Zhang, Jiujun Zhang

2018, 1(1):  1-34.  doi:10.1007/s41918-018-0002-3

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Metal-air batteries (MABs), particularly rechargeable MABs, have gained renewed interests as a potential energy storage/conversion solution due to their high specifc energy, low cost, and safety. The development of MABs has, however, been considerably hampered by its relatively low rate capability and its lack of efcient and stable air catalysts in which the former stems mainly from the sluggish kinetics of the oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) and the latter stems from the corrosion/oxidation of carbon materials in the presence of oxygen and high electrode potentials. In this review, various carbon-composited bifunctional electrocatalysts are reviewed to summarize progresses in the enhancement of ORR/OER and durability induced by the synergistic efects between carbon and other component(s). Catalyst mechanisms of the reaction processes and associated performance enhancements as well as technical challenges hindering commercialization are also analyzed. To facilitate further research and development, several research directions for overcoming these challenges are also proposed.

Full-text: https://link.springer.com/article/10.1007/s41918-018-0002-3

High-Performance Anode Materials for Rechargeable Lithium-Ion Batteries

Jun Lu, Zhongwei Chen, Feng Pan, Yi Cui, Khalil Amine

2018, 1(1):  35-53.  doi:10.1007/s41918-018-0001-4

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Transformational changes in battery technologies are critically needed to enable the efective use of renewable energy sources, such as solar and wind, and to allow for the expansion of the electrifcation of vehicles. Developing high-performance batteries is critical to meet these requirements, which certainly relies on material breakthroughs. This review article presents the recent progresses and challenges in discovery of high-performance anode materials for Li-ion batteries related to their applications in future electrical vehicles and grid energy storage. The advantages and disadvantages of a series of anode materials are highlighted.

Full-text: https://link.springer.com/article/10.1007/s41918-018-0001-4

Rational Design and Synthesis of Low-Temperature Fuel Cell Electrocatalysts

Na Tian, Bang-An Lu, Xiao-Dong Yang, Rui Huang, Yan-Xia Jiang, Zhi-You Zhou, Shi-Gang Sun

2018, 1(1):  54-83.  doi:10.1007/s41918-018-0004-1

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Recent progresses in proton exchange membrane fuel cell electrocatalysts are reviewed in this article in terms of cathodic and anodic reactions with a focus on rational design. These designs are based around gaining active sites using model surface studies and include high-index faceted Pt and Pt-alloy nanocrystals for anodic electrooxidation reactions as well as Pt-based alloy/core-shell structures and carbon-based non-precious metal catalysts for cathodic oxygen reduction reactions (ORR). High-index nanocrystals, alloy nanoparticles, and support efects are highlighted for anodic catalysts, and current developments in ORR electrocatalysts with novel structures and diferent compositions are emphasized for cathodic catalysts. Active site structures, catalytic performances, and stability in fuel cells are also reviewed for carbon-based non-precious metal catalysts. In addition, further developmental perspectives and the current status of advanced fuel cell electrocatalysts are provided.

Full-text: https://link.springer.com/article/10.1007/s41918-018-0004-1



Carbon-Based Metal-Free Electrocatalysis for Energy Conversion, Energy Storage, and Environmental Protection

Chuangang Hu, Ying Xiao, Yuqin Zou, Liming Dai

2018, 1(1):  84-112.  doi:10.1007/s41918-018-0003-2

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Carbon-based metal-free catalysts possess desirable properties such as high earth abundance, low cost, high electrical conductivity, structural tunability, good selectivity, strong stability in acidic/alkaline conditions, and environmental friendliness. Because of these properties, these catalysts have recently received increasing attention in energy and environmental applications. Subsequently, various carbon-based electrocatalysts have been developed to replace noble metal catalysts for low-cost renewable generation and storage of clean energy and environmental protection through metal-free electrocatalysis. This article provides an up-to-date review of this rapidly developing feld by critically assessing recent advances in the mechanistic understanding, structure design, and material/device fabrication of metal-free carbon-based electrocatalysts for clean energy conversion/storage and environmental protection, along with discussions on current challenges and perspectives.

Full-text: https://link.springer.com/article/10.1007/s41918-018-0003-2