Journal Article10.1039/d3nr02859c
Electrolyte modification method induced atomic arrangement in FeOx/NF nanosheets for efficient overall water splitting.
Xiaoping Zhang,Xiaonan Fu,Weifeng Tian,Yanzhi Bai,Liya Zhu,Junwen Si +5 more
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TL;DR: Electrolyte modification method induces atomic arrangement in FeOx/NF nanosheets for efficient overall water splitting, enhancing catalytic activity and improving overall performance.
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Abstract: To explore transition metal-based electrocatalysts with remarkable energy storage and conversion performance, the rational design and synthesis of electrodes with rich active sites and favorable electrical conductivity are crucial. Herein, using fluoroethylene carbonate (FEC) additive in electrochemical conversion reaction (electrolyte modification method) is proposed as an effective strategy to enhance the catalytic activity of FeOx/NF. The optimal sample FeOx/NF-Li-FEC1 shows optimized HER activity with remarkably low overpotential of 222 mV at a current density of 200 mA cm-2. By employing FeOx/NF-Li-FEC1 as bifunctional electrocatalysts, the overall water-splitting device reaches a current density of 10 mA cm-2 at a low cell voltage of 1.56 V. The outstanding performance is mainly attributed to the atomic arrangement to offer rich active sites as well as the evolved electronic structure and the thin SEI layer to accelerate charge transfer process. This study opens up a novel avenue to rationally design and synthesize low-cost and high-performance electrode materials for electrochemical energy conversion and storage devices.
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Citations
Protecting Li-metal anode with LiF-riched solid electrolyte interphase derived from fluorinated graphene additive
Xiaohong Wu,Yuhao Hong,Zhengang Li,Junhao Wang,Haitang Zhang,Yu Qiao,Hongjun Yue,Chunhai Jiang +7 more
TL;DR: Researchers develop a LiF-enriched solid electrolyte interphase (SEI) film using fluorinated graphene, achieving uniform distribution and efficient Li-metal protection through a sacrificial additive approach, enhancing battery performance and safety.
Sulfate modified Fe(OH)x/NF nanosheets with oxygen vacancies for enhanced oxygen evolution
Xiaoping Zhang,Guodong Shi,Yuanyuan Li,Yanzhi Bai,Chao Wang,Junwen Si,Liya Zhu +6 more
TL;DR: Sulfate-modified Fe(OH)x/NF nanosheets with oxygen vacancies exhibit enhanced oxygen evolution reaction (OER) activity, achieving an ultralow overpotential of 261 mV, attributed to undercoordinated atom centers and increased electron density.
3D mixed ion-electron conducting framework for dendrite-free lithium metal anode
Jinmin Lin,Zerui Chen,Wei Zhao,Junwei Han,Bo Chen,Yao Chen,Qianqian Liu,Hao Bin Wu +7 more
TL;DR: Researchers develop a 3D mixed ion-electron conducting framework to mitigate dendrite growth and volume expansion in lithium metal anodes, enabling practical application of lithium metal batteries with improved safety and efficiency.
References
Plasma-Engraved Co3 O4 Nanosheets with Oxygen Vacancies and High Surface Area for the Oxygen Evolution Reaction.
TL;DR: An efficient Co3 O4 -based OER electrocatalyst is designed by a plasma-engraving strategy, which not only produced higher surface area, but also generated oxygen vacancies on Co 3 O4 surface with more Co(2+) formed to improve the electronic conductivity and create more active defects for OER.
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Fluoroethylene Carbonate Additives to Render Uniform Li Deposits in Lithium Metal Batteries
TL;DR: In this article, fluoroethylene carbonate (FEC) additives are used to form a LiF-rich solid electrolyte interphase (SEI) layer, which is compact and stable, and thus beneficial to obtain a uniform morphology of Li deposits.
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Direct and continuous strain control of catalysts with tunable battery electrode materials
Haotian Wang,Shicheng Xu,Charlie Tsai,Charlie Tsai,Yuzhang Li,Chong Liu,Jie Zhao,Yayuan Liu,Hongyuan Yuan,Frank Abild-Pedersen,Fritz B. Prinz,Jens K. Nørskov,Jens K. Nørskov,Yi Cui,Yi Cui +14 more
TL;DR: A method for using battery electrode materials to directly and continuously control the lattice strain of platinum (Pt) catalyst and thus tune its catalytic activity for the oxygen reduction reaction (ORR) is reported.
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A unique oxygen ligand environment facilitates water oxidation in hole-doped IrNiOx core–shell electrocatalysts
Hong Nhan Nong,Hong Nhan Nong,Tobias Reier,Hyung Suk Oh,Manuel Gliech,Paul Paciok,Thu Ha Thi Vu,Detre Teschner,Detre Teschner,Marc Heggen,Valeri Petkov,Robert Schlögl,Travis E. Jones,Peter Strasser,Peter Strasser +14 more
- 01 Oct 2018
TL;DR: In this paper, the local geometric ligand environment and electronic metal states of oxygen-coordinated iridium centres in nickel-leached IrNi@IrOx metal oxide core-shell nanoparticles under catalytic oxygen evolution conditions were investigated.
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Strong Electronic Interaction in Dual‐Cation‐Incorporated NiSe2 Nanosheets with Lattice Distortion for Highly Efficient Overall Water Splitting
Yiqiang Sun,Yiqiang Sun,Kun Xu,Zengxi Wei,Huilin Li,Huilin Li,Tao Zhang,Tao Zhang,Xinyang Li,Weiping Cai,Jianmin Ma,Hong Jin Fan,Yue Li +12 more
TL;DR: The synthesis of dual-cation (Fe, Co)-incorporated NiSe2 nanosheets ( Fe, Co-NiSe2) and systematical investigation of their electrocatalytic performance for water splitting as a function of the composition are reported.
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