Innovative strategies to effectively increase the active-site density of M-N-C materials for electrochemical application
出版年份 2022 全文链接
标题
Innovative strategies to effectively increase the active-site density of M-N-C materials for electrochemical application
作者
关键词
-
出版物
Current Opinion in Electrochemistry
Volume 34, Issue -, Pages 100994
出版商
Elsevier BV
发表日期
2022-03-30
DOI
10.1016/j.coelec.2022.100994
参考文献
相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。- Nitrogenase-Inspired Atomically Dispersed Fe–S–C Linkages for Improved Electrochemical Reduction of Dinitrogen to Ammonia
- (2022) Muhammad I. Ahmed et al. ACS Catalysis
- Dynamically Unveiling Metal‐Nitrogen Coordination during Thermal Activation to Design High‐Efficient Atomically Dispersed CoN4 Active Sites
- (2021) Yanghua He et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Identifying the Activity Origin of a Cobalt Single‐Atom Catalyst for Hydrogen Evolution Using Supervised Learning
- (2021) Xinghui Liu et al. ADVANCED FUNCTIONAL MATERIALS
- Boosting Selective Nitrogen Reduction via Geometric Coordination Engineering on Single‐Tungsten‐Atom Catalysts
- (2021) Yu Gu et al. ADVANCED MATERIALS
- Operando Cooperated Catalytic Mechanism of Atomically Dispersed Cu−N 4 and Zn−N 4 for Promoting Oxygen Reduction Reaction
- (2021) Miaomiao Tong et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- A Unique Gas-Migration, Trapping, and Emitting Strategy for High-Loading Single Atomic Cd Sites for Carbon Dioxide Electroreduction
- (2021) Shuguang Wang et al. NANO LETTERS
- Regulating Fe-spin state by atomically dispersed Mn-N in Fe-N-C catalysts with high oxygen reduction activity
- (2021) Gege Yang et al. Nature Communications
- Electrochemical ammonia synthesis via nitrate reduction on Fe single atom catalyst
- (2021) Zhen-Yu Wu et al. Nature Communications
- Engineering the Coordination Environment of Single Cobalt Atoms for Efficient Oxygen Reduction and Hydrogen Evolution Reactions
- (2021) Tao Sun et al. ACS Catalysis
- Nitrogen Vacancy Induced Coordinative Reconstruction of Single‐Atom Ni Catalyst for Efficient Electrochemical CO 2 Reduction
- (2021) Chen Jia et al. ADVANCED FUNCTIONAL MATERIALS
- General synthesis of single-atom catalysts with high metal loading using graphene quantum dots
- (2021) Chuan Xia et al. Nature Chemistry
- Chemical vapour deposition of Fe–N–C oxygen reduction catalysts with full utilization of dense Fe–N4 sites
- (2021) Li Jiao et al. NATURE MATERIALS
- Understanding the inter-site distance effect in single-atom catalysts for oxygen electroreduction
- (2021) Zhaoyu Jin et al. Nature Catalysis
- Scalable two-step annealing method for preparing ultra-high-density single-atom catalyst libraries
- (2021) Xiao Hai et al. Nature Nanotechnology
- Rationalization on high-loading iron and cobalt dual metal single atoms and mechanistic insight into the oxygen reduction reaction
- (2021) Min Jiang et al. Nano Energy
- Rare Earth Single-Atom Catalysts for Nitrogen and Carbon Dioxide Reduction
- (2020) Jieyuan Liu et al. ACS Nano
- Two-Dimensional Bimetallic Zn/Fe-Metal-Organic Framework (MOF)-Derived Porous Carbon Nanosheets with a High Density of Single/Paired Fe Atoms as High-Performance Oxygen Reduction Catalysts
- (2020) Long Zheng et al. ACS Applied Materials & Interfaces
- Single‐Atom Iron Catalysts on Overhang‐Eave Carbon Cages for High‐Performance Oxygen Reduction Reaction
- (2020) Chun‐Chao Hou et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Densely Isolated FeN4 Sites for Peroxidase Mimicking
- (2020) Lei Jiao et al. ACS Catalysis
- Sequential Synthesis and Active‐Site Coordination Principle of Precious Metal Single‐Atom Catalysts for Oxygen Reduction Reaction and PEM Fuel Cells
- (2020) Qingtao Liu et al. Advanced Energy Materials
- Dual Single‐Atomic Ni‐N 4 and Fe‐N 4 Sites Constructing Janus Hollow Graphene for Selective Oxygen Electrocatalysis
- (2020) Jiangyue Chen et al. ADVANCED MATERIALS
- Stable and Efficient Single-Atom Zn Catalyst for CO2 Reduction to CH4
- (2020) Lili Han et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- Engineering unsymmetrically coordinated Cu-S1N3 single atom sites with enhanced oxygen reduction activity
- (2020) Huishan Shang et al. Nature Communications
- Nanocasting SiO2 into metal–organic frameworks imparts dual protection to high-loading Fe single-atom electrocatalysts
- (2020) Long Jiao et al. Nature Communications
- Metal‐Nitrogen‐Doped Carbon Materials as Highly Efficient Catalysts: Progress and Rational Design
- (2020) Zhangsheng Shi et al. Advanced Science
- Dual‐Metal Interbonding as the Chemical Facilitator for Single‐Atom Dispersions
- (2020) Yao Zhou et al. ADVANCED MATERIALS
- Coexisting Single‐Atomic Fe and Ni Sites on Hierarchically Ordered Porous Carbon as a Highly Efficient ORR Electrocatalyst
- (2020) Zhengju Zhu et al. ADVANCED MATERIALS
- ZIF-8 derived Fe‒N coordination moieties anchored carbon nanocubes for efficient peroxymonosulfate activation via non-radical pathways: Role of FeNx sites
- (2020) Jingjing He et al. JOURNAL OF HAZARDOUS MATERIALS
- Boron-doped Fe-N-C single-atom nanozymes specifically boost peroxidase-like activity
- (2020) Lei Jiao et al. Nano Today
- Multilayer stabilization for fabricating high-loading single-atom catalysts
- (2020) Yazhou Zhou et al. Nature Communications
- Atom migration-trapping toward single-atom catalysts for energy electrocatalysis
- (2020) Peiqun Yin et al. Materials Today Energy
- Propagating Fe-N4 active sites with Vitamin C to efficiently drive oxygen electrocatalysis
- (2020) Chenxi Hu et al. Nano Energy
- Over 56.55% Faradaic efficiency of ambient ammonia synthesis enabled by positively shifting the reaction potential
- (2019) Mengfan Wang et al. Nature Communications
- Cascade anchoring strategy for general mass production of high-loading single-atomic metal-nitrogen catalysts
- (2019) Lu Zhao et al. Nature Communications
- Isolated Diatomic Ni-Fe Metal-Nitrogen Sites for Synergistic Electroreduction of CO₂
- (2019) Wenhao Ren et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Electrosynthesis of Hydrogen Peroxide Synergistically Catalyzed by Atomic Co–N x –C Sites and Oxygen Functional Groups in Noble‐Metal‐Free Electrocatalysts
- (2019) Bo‐Quan Li et al. ADVANCED MATERIALS
- Engineering of Nitrogen Coordinated Single Cobalt Atom Moieties for Oxygen Electroreduction
- (2019) Wei Sun et al. ACS Applied Materials & Interfaces
- Highly selective oxygen reduction to hydrogen peroxide on transition metal single atom coordination
- (2019) Kun Jiang et al. Nature Communications
- Cage-confinement pyrolysis route to size-controlled molybdenum-based oxygen electrode catalysts: From isolated atoms to clusters and nanoparticles
- (2019) Zongkui Kou et al. Nano Energy
- Evolution Pathway from Iron Compounds to Fe1(II)–N4 Sites through Gas-Phase Iron during Pyrolysis
- (2019) Jingkun Li et al. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY
- The Solid-Phase Synthesis of an Fe-N-C Electrocatalyst for High-Power Proton-Exchange Membrane Fuel Cells
- (2018) Qingtao Liu et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- Boosting oxygen reduction catalysis with abundant copper single atom active sites
- (2018) Feng Li et al. Energy & Environmental Science
- Promoting Oxygen Reduction Reaction Activity of Fe–N/C Electrocatalysts by Silica-Coating-Mediated Synthesis for Anion-Exchange Membrane Fuel Cells
- (2018) Jinwoo Woo et al. CHEMISTRY OF MATERIALS
- Fabrication of Single-Atom Catalysts with Precise Structure and High Metal Loading
- (2018) Jing Wang et al. ADVANCED MATERIALS
- Atomically Dispersed Molybdenum Catalysts for Efficient Ambient Nitrogen Fixation
- (2018) Lili Han et al. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION
- A silica-confined strategy for completely atomic level Fe(II)-N-C catalysts with a non-planar structure toward oxygen reduction reaction
- (2018) Min Liu et al. JOURNAL OF CATALYSIS
- Thermally stable single-atom platinum-on-ceria catalysts via atom trapping
- (2016) J. Jones et al. SCIENCE
- Direct, Nonoxidative Conversion of Methane to Ethylene, Aromatics, and Hydrogen
- (2014) X. Guo et al. SCIENCE
- Single-atom catalysis of CO oxidation using Pt1/FeO x
- (2011) Botao Qiao et al. Nature Chemistry
Find the ideal target journal for your manuscript
Explore over 38,000 international journals covering a vast array of academic fields.
SearchCreate your own webinar
Interested in hosting your own webinar? Check the schedule and propose your idea to the Peeref Content Team.
Create Now