Nano-Micro LettersNTU张华彬等综述:单原子催化剂与活性位点的调控及在多相催化中的固有活性
13Nano-Micro Letters 发布于 2021-08-04
Engineering the Coordination Sphere of Isolated Active Sites to Explore the Intrinsic Activity in Heterogeneous Catalysis Xin Wu, Huabin ...
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催化 第4页
综述:MXenes在太阳电池中的应用
8Nano-Micro Letters 发布于 2021-05-07
MXenes for Solar Cells Lujie Yin, Yingtao Li, Xincheng Yao, Yanzhou Wang, Lin Jia, Qiming Liu, Junshuai Li*, Yali Li*, Deyan He Nano-M...
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大电流密度电解水制氢:氮掺杂石墨烯修饰NiCo合金耦合介孔NiCoMoO纳米片异质结催化剂
9Nano-Micro Letters 发布于 2021-04-27
N‑Doped Graphene‑Decorated NiCo Alloy Coupled with Mesoporous NiCoMoO Nano‑sheet Heterojunction for Enhanced Water Electrolysis Activity at ...
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澳大利亚张山青教授等:界面工程结合DFT计算构建ORR/OER双功能电催化剂
9Nano-Micro Letters 发布于 2021-02-18
Interface Engineering of CoS/CoO@N‑Doped Graphene Nanocomposite for High‑Performance Rechargeable Zn–Air Batteries Yuhui Tian, Li Xu*, ...
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高效光电水分解材料:在石墨烯上可控和大规模垂直生长等离子Ag修饰的二维MoS₂纳米片
9Nano-Micro Letters 发布于 2021-01-21
Plasmonic Ag-Decorated Few-Layer MoS₂ Nanosheets Vertically Grown on Graphene for Efficient Photoelectrochemical Water Splitting Dong-Bum...
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曲久辉院士:阵列式磷化钴电催化剂实现低能耗水分解
8Nano-Micro Letters 发布于 2021-01-13
Arrayed Cobalt Phosphide Electrocatalyst Achieves Low Energy Consumption and Persistent H₂ Liberation from Anodic Chemical Conversion Kai...
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55-NML专辑 | 电解水
19Nano-Micro Letters 发布于 2021-01-11
一、专辑介绍 水分解:水分解技术的特点是使用化学反应来将水(H2O)分离成氧和氢。有效的水分解可以使用多种不同的技术,包括电解、光合作用、光电化学、光催化、辐射分解、光生物学和热分解来达成,最新的研究成果侧重于使用纳米粒子和薄膜催化剂在较低反应温度下分解水。 本虚拟专...
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核壳异质结构一体式电催化剂:热冲击活化辅助纳米片自发生长应用于全解水
9Nano-Micro Letters 发布于 2020-12-06
Thermal Shock-Activated Spontaneous Growing of Nanosheets for Overall Water Splitting Han Wu, Qi Lu, Jinfeng Zhang, Jiajun Wang, Xiaopeng...
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施剑林院士团队:原位电化学过程中生成高价态Mn的高效ORR催化剂
9Nano-Micro Letters 发布于 2020-12-02
In Situ Electrochemical Mn(III)/Mn(IV) Generation of Mn(II)O Electrocatalysts for High‑Performance Oxygen Reduction Han Tian, Liming Zeng...
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综述:碳基材料结构缺陷如何优化CO₂还原催化?
7Nano-Micro Letters 发布于 2020-11-19
Defect Engineering on Carbon‑Based Catalysts for Electrocatalytic CO₂ Reduction Dongping Xue, Huicong Xia, Wenfu Yan, Jianan Zhang*, Shic...
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中性条件下安培级长循环电催化析氢:CoOOH二维薄片封装的Ni2P纳米管阵列
9Nano-Micro Letters 发布于 2020-09-24
2D CoOOH Sheet‑Encapsulated Ni2P into Tubular Arrays Realizing 1000 mA cm−2‑Level‑Current‑Density Hydrogen Evolution Over 100 h in Neutral W...
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氮还原电催化剂:温和条件下铋基自支撑电极高效合成氨
7Nano-Micro Letters 发布于 2020-09-21
Bismuth-Based Free-Standing Electrodes for Ambient-Condition Ammonia Production in Neutral Media Ying Sun, Zizhao Deng, Xi-Ming Song, Hu...
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水分解综述:从电极到绿色能源系统
13Nano-Micro Letters 发布于 2020-09-17
Water Splitting: From Electrode to Green Energy System Xiao Li, Lili Zhao, Jiayuan Yu, Xiaoyan Liu, Xiaoli Zhang, Hong Liu*, Weijia Zhou*...
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有望超越Pt的ORR催化剂:原子级掺杂金属元素的氮碳材料
9Nano-Micro Letters 发布于 2020-08-11
Atomically Dispersed Fe‑N4 Modified with Precisely Located S for Highly Efficient Oxygen ReductionYin Jia, Xuya Xiong, Danni Wang,...
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浙大侯阳:精确合成单原子-N配位结构提升电催化还原CO2性能
9Nano-Micro Letters 发布于 2020-07-31
A Universal Principle to Accurately Synthesize Atomically Dispersed Metal-N4 Sites for CO2 Electroreduction Wanzhen Zheng, Feng C...
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工业级电催化水裂解析氧材料:3D超疏气双金属硒化物异质结构
9Nano-Micro Letters 发布于 2020-07-13
A Superaerophobic Bimetallic Selenides Heterostructure for Efficient Industrial-Level Oxygen Evolution at Ultra-High Current Densities ...
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底封面文章:混合收集机械能与太阳能的自驱动制氢系统
9Nano-Micro Letters 发布于 2020-06-08
Hybridized Mechanical and Solar Energy-Driven Self-Powered Hydrogen Production Xuelian Wei, Zhen Wen*, YinaLiu, Ningning Zhai, Ai...
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宁波材料所杨明辉研究员:高活性/长寿命/低成本的介孔金属氮化物OER催化剂
8Nano-Micro Letters 发布于 2020-05-30
Mesoporous Ternary Nitrides of Earth-Abundant Metals as Oxygen Evolution Electrocatalyst Ali Saad, Hangjia Shen, Zhixing Cheng, R...
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澳大利亚马天翼老师:过渡金属三元硼化物首次用于电化学合成氨
8Nano-Micro Letters 发布于 2020-05-06
Transition Metal Aluminum Boride as a New Candidate for Ambient-Condition Electrochemical Ammonia Synthesis Yang Fu, Peter Richar...
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高效OER电催化剂:纳米颗粒修饰的超薄La2O3纳米片
9Nano-Micro Letters 发布于 2020-04-04
Nanoparticle‑Decorated Ultrathin La2O3 Nanosheets as an Efficient Electrocatalysis for Oxygen Evolution Reactions Guangyuan Yan, ...
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