Unprecedented Superelasticity in Mo17O47/MoS2 Core-Shell Nanowires [0.03%]
Mo17O47/MoS2 核壳纳米线中前所未有的超弹性
Zhongliang Yu,Wenqing Zhu,Bowen Liu et al.
Zhongliang Yu et al.
Inorganic materials are usually known with high modulus and brittleness. Here the finding of a [001]-oriented Mo17O47 nanowires (NWs) material is reported with a thin MoS2 shell that exhibits superelastic deformability superior to the repor...
Liquid Bridges Mediate Crack Initiation, Propagation, and Coalescence to Suppress Film Failure within Flexible Electronics [0.03%]
液桥介导裂纹起始、传播和汇合以抑制柔性电子中薄膜失效
Shan Peng,Yuanyuan Zhao,Zhao Li et al.
Shan Peng et al.
Recent flexible electronics with conformal interfaces between devices and human bodies are prone to receive circuit failure caused by uncontrollable cracking during physiological movements. A structural engineering strategy is reported that...
Toward Stable, High-Energy, Partially Disordered Mn-Rich Spinel Cathodes by Revealing and Mitigating Surface Degradation [0.03%]
揭示并缓解表面退化构建稳定、高能量的富Mn部分无序尖晶石正极材料
Dawei Xia,Junyi Yao,Chenguang Shi et al.
Dawei Xia et al.
Mn-rich cathodes balance performance and sustainability but suffer from limited cyclability due to Mn dissolution and cathode-to-anode crosstalk. The Jahn-Teller (J-T) effect of Mn3+ is often linked to the above phenomena, such as in spinel...
Single-Atom Nano-Islands: Unlocking New Horizons in Catalytic Activity and Stability [0.03%]
单原子纳米岛:解锁催化活性和稳定性的新视野
Peng Wang,Qiaofu Shi,Yuan Gao et al.
Peng Wang et al.
Single-atom catalysts (SACs), renowned for their maximized atomic utilization, tunable coordination environments, and unique electronic structures, are critical to energy conversion and storage. However, obstacles to their practical perform...
Increasing the Stability of Deep Blue Phosphor-Sensitized OLEDs Using the Polariton-Enhanced Purcell Effect [0.03%]
利用极化子增强的Purcell效应提高深蓝色磷光敏化OLEDs的稳定性
Haonan Zhao,Sritoma Paul,Stephen R Forrest
Haonan Zhao
The stability of efficient, deep blue organic light-emitting diodes (OLEDs) remains a major challenge in the field of organic electronics. Poor device stability originates from the high probability for destructive non-radiative triplet exci...
An Ultrathin Membrane with Bubble-Raft-Inspired Single-Layer Nanofibrous Networks for Efficient and Low-Resistance Air Filtration [0.03%]
一种高效的低阻力空气过滤膜:单层纳米纤维网络气泡筏结构启发膜材料
Xiaoxi Li,Ni Yao,Ming Yang et al.
Xiaoxi Li et al.
Airborne particulate matter (PM) is a major global safety concern, significantly straining the ecological environment, human health, and economy. Filtration membranes, essential for PM removal, are challenging in achieving both high efficie...
Microscopic-Level Anion & Diluent Chemistry in Electrolyte for Aqueous Supercapacitors Operating at High Voltage and Low Temperature [0.03%]
用于高压和低温工作的水性超级电容器电解液中的阴离子及溶剂微环境化学性质研究
Yingbin Liu,Chang Yu,Shuqin Lan et al.
Yingbin Liu et al.
Aqueous supercapacitors, serving as safe and green high-power energy storage devices, hold significant potential in various applications. Exploring advanced electrolytes beyond traditional electrolytes is essential for achieving stable high...
Evaluation and Rehabilitation System for Ulnar-Innervated Muscles Facilitated by Rare Earth Oxide-Enhanced Triboelectric Sensor [0.03%]
一种稀土氧化物增强摩擦电传感器促进的小指屈肌评定与康复系统
Yijun Hao,Keke Hong,Jiayi Yang et al.
Yijun Hao et al.
Ulnar nerve injuries often lead to muscle atrophy and reduced hand function, necessitating precise monitoring and effective rehabilitation strategies. Current grip strength measurement tools rely on rigid mechanical equipment, which is inco...
Spin Engineering of Dual-Atom Site Catalysts for Efficient Electrochemical Energy Conversion [0.03%]
用于高效电化学能量转换的双原子位点催化剂的自旋工程
Dongping Xue,Yu Zhao,Jianliang Cao et al.
Dongping Xue et al.
Dual-atom site catalysts (DASCs) provide more advantages than single-atom systems in improving energy conversions, owing to their unique features. For example, the coupling effect may align the spin of two adjacent dual-atom active centers ...
Reward Driven Workflows for Unsupervised Explainable Analysis of Phases and Ferroic Variants From Atomically Resolved Imaging Data [0.03%]
基于奖励的工作流程:从原子级成像数据中进行无监督且可解释的相变和铁性分析
Kamyar Barakati,Yu Liu,Chris Nelson et al.
Kamyar Barakati et al.
Rapid progress in aberration corrected electron microscopy necessitates development of robust methods for the identification of phases, ferroic variants, and other pertinent aspects of materials structure from imaging data. While unsupervis...