Spin-polarized Acidic Water Electrolysis with Antenna-Reactor Plasmonic Electrocatalysts [0.03%]
天线反应器等离子体电催化剂的自旋极化酸水电解技术
Kyunghee Chae,Heejun Lee,Wen-Tse Huang et al.
Kyunghee Chae et al.
Water electrolysis, driven by renewable electricity, offers a sustainable path for hydrogen production. However, efficient bifunctional electrocatalysts are needed to overcome the high overpotentials of both the oxygen evolution reaction an...
Reversible Phase Transitions of Anionic and Cationic Surfactant Mixtures Drive Shape Morphing Droplets [0.03%]
阴离子和阳离子表面活性剂的可逆相变驱动液滴形变
Bradley D Frank,Pilar Romero,Alberto Concellón et al.
Bradley D Frank et al.
Converting chemical signals into mechanical responses is fundamental to biological systems, driving processes such as cellular motility and tissue morphogenesis. Yet, harnessing chemo-mechanical signal conversions in synthetic systems remai...
Enhanced Electrical Interfaces in Flexible 2D Material Transistors via Liquid Metal and Ionic Liquid Injection [0.03%]
通过液态金属和离子液体注入增强柔性二维材料晶体管的电学接口性能
Junjie Xiong,Gaotian Lu,Xinfeng Tan et al.
Junjie Xiong et al.
Contact engineering at the semiconductor-electrode and semiconductor-dielectric interfaces is critical to the performance of electronic devices, especially for delicate 2D semiconductors. Here, this study proposes a new paradigm of flexible...
Semiconducting Pt Structures Stabilized on 2D MoS2 Crystals Enable Ultrafast Hydrogen Evolution [0.03%]
二维MoS2晶面上稳定化的Pt半导体结构可实现超快的产氢反应
Tamás Ollár,Péter Vancsó,Péter Kun et al.
Tamás Ollár et al.
Metallic platinum is the best and most widely investigated catalyst for hydrogen evolution, yet little is known about Pt in its semiconducting form. Here, it is shown that semiconducting Pt structures with a thickness of only two atomic lay...
A Non-Concentrated Gradient-Solvation Electrolyte Enables a High-Voltage Lithium Metal Battery with 447.6 Wh Kg-1 [0.03%]
一种非浓集 gradient-solvation 电解质能使锂金属电池实现高电压(447.6 wh kg^{-1})
Hao Wang,Dong Yan,Hongyu Liu et al.
Hao Wang et al.
High-voltage lithium (Li) metal batteries (LMBs) emerge as a pivotal strategy for achieving high energy density applications. However, the electrolyte instability leading to inferior rate performance and short lifespan remains to be address...
Immobilization of H2O in Diffusion Channel of Metal-Organic Frameworks for Long-Term CO2 Capture from Humid Flue Gas [0.03%]
金属有机框架中H2O分子在扩散通道内的封离作用促进湿烟气环境下CO2的长期捕获与存储研究
Yang Chen,Kaihua Wang,Jing-Hong Li et al.
Yang Chen et al.
Utilizing physisorption for CO2 capture in humid flue gas presents challenges, with H2O molecules either damaging the adsorbent or competing with CO2 for adsorption, compromising long-term stability. Herein, a counter-intuitive strategy is ...
Restoring Ultra-Flat Bridgman-Fabricated Single-Crystal Cu(111) Wafers via Recrystallization Arrest Strategy for High-Quality Graphene Epitaxy [0.03%]
通过再结晶阻止策略恢复超平整的布里奇曼单晶Cu(111)衬底用于高质量石墨烯外延生长
Chengjin Wu,Buhang Chen,Haiyang Liu et al.
Chengjin Wu et al.
Single-crystal Cu(111) and its ultra-flat surface are crucial for the heteroepitaxy of high-quality, single-crystal graphene films with minimal folds and additional layers. Bridgman method coupled with cutting and chemical-mechanical polish...
Ion-Framework Electrolyte Featured Zinc-Ion Transport for Solvent and Interphasial Co-Passivation [0.03%]
溶剂和界面共钝化 featured 紧离子传输的离子框架电解液
Jianze Feng,Xixian Li,Yunfa Dong et al.
Jianze Feng et al.
The rapid application of zinc-ion (Zn2+) energy storage lacks favorable solvation structures to simultaneously form inert electrolyte environments and robust solid electrolyte interphase (SEI), which means that Zn2+ devices cannot synchrono...
Revealing Redox-Mediated CO2 Reduction Reaction Mechanisms in Aprotic Li-CO2 Batteries [0.03%]
原位电化学表面增强拉曼光谱研究非质子Li-CO2电池中的氧化还原介导的CO2还原反应机制
Zhiwei Zhao,Yuyue Wu,Tianfeng Yao et al.
Zhiwei Zhao et al.
Redox-mediated electrocatalysis represents an innovative strategy to unlock the energy capabilities of aprotic Li-CO2 batteries by enabling solution-mediated CO2 reduction reaction (CO2RR). However, the underlying reaction pathways remain i...
Unlocking the Potential of MOFs Anodes via Solid-State Corrosion Prelithiation for High-Energy Li-Ion Batteries [0.03%]
通过固态腐蚀预锂化解锁金属有机骨架负极的潜力以实现高能量锂电池
Huanhao Lei,Jinning Zuo,Jia Lu et al.
Huanhao Lei et al.
Pristine metal-organic frameworks (MOFs) with their excellent cycling stability and high capacity are considered as promising next-generation anode materials for advanced high-performance lithium-ion batteries. Despite extensive efforts to ...