In Situ Building Halide-Alloy Dual-Phase Interfaces for Dendrite-Free Sulfide Solid-State Batteries [0.03%]
原位构建氯化物合金双相界面实现硫化物固态电池无枝晶化
Yao Liu,Jiamin Fu,Mengzi Geng et al.
Yao Liu et al.
Argyrodite‑type sulfide solid electrolytes are promising candidates for all‑solid‑state lithium‑metal batteries due to their high Li‑ion conductivity and favorable mechanical compliance. Nevertheless, their inherent chemical reactivity...
Accessing Multi-Material Liquid Crystal Elastomers Via Digitally Programmable Network Topologies [0.03%]
基于可编程网络拓扑的多材料液晶弹性体体系的构建与应用研究进展
Yi Sheng,Xiaorui Zhou,Hanyuan Bao et al.
Yi Sheng et al.
Biological systems achieve functional complexity through spatially organized material heterogeneity, a principle that holds great promise for soft robotics. Liquid crystal elastomers (LCEs) are ideal candidates for soft robotic materials, y...
Artificial Intelligence-Assisted Workflow for Transmission Electron Microscopy: From Data Analysis Automation to Materials Knowledge Unveiling [0.03%]
基于人工智能的透射电子显微学研究:从数据分析自动化到材料知识解析
Marc Botifoll,Ivan Pinto-Huguet,Enzo Rotunno et al.
Marc Botifoll et al.
(Scanning) transmission electron microscopy ((S)TEM) has significantly advanced materials science but faces challenges in correlating precise atomic structure information with the functional properties of devices due to its time-intensive n...
Quantum Phase Transitions in Graphene Coupled to a Twisted WSe2 Moiré Ferroelectricity [0.03%]
石墨烯与扭曲的WSe2莫尔结构中的铁电相变
Budhi Singh,Yasir Hassan,Nasir Ali et al.
Budhi Singh et al.
Sublattice symmetry in graphene governs its Dirac semimetal behavior, where electrons exhibit linear dispersion, limiting its potential for technological applications. Here, moiré ferroelectricity in twisted WSe2 (t-WSe2) is exploited to b...
Mechanically Assisted Li+-Conduction in Crown Ether-Covalent Organic Frameworks for Lithium Metal Batteries [0.03%]
用于锂金属电池的冠醚共价有机框架中的机械辅助锂离子传导机制
Muhua Gu,Jixin Wu,Chen Li et al.
Muhua Gu et al.
Mechanically interlocked molecules (MIMs) enable controlled motions like rotation and shuttling, ideal for molecular machines. Heteroatom-containing MIMs, such as crown ethers, exhibit host-guest interactions, coordinating Li+ for transport...
Non-Metallic Back Contacts for Indoor Perovskite Solar Cells: Material Criteria, Recent Progress, and Future Outlook [0.03%]
室内钙钛矿太阳能电池的非金属背电极:材料标准、最新进展和未来展望
Yang Yang,Saveen Senanayake,Minh Tam Hoang et al.
Yang Yang et al.
Perovskite solar cells (PSCs) have emerged as a leading technology for indoor photovoltaics due to their high-power conversion efficiency, tunable bandgaps, and cost-effective fabrication. While significant efforts are made in optimizing pe...
Self-Limiting Synthesis of Supported Nanoparticle Superlattices on Diverse Substrates via Surface Coordination Chemistry [0.03%]
基于表面配位化学的衬底通用性负载型纳米晶超晶格的自终止合成法
Yifan Gao,Qingfu Cai,Shenxin Xia et al.
Yifan Gao et al.
High-loading, uniformly dispersed nanoparticles (NPs) on functional substrates are vital for advanced catalysis and energy storage, yet remain difficult to realize because of particle aggregation, size polydispersity, and weak interfacial b...
Fully Biocompatible Tantalum-Based Antioxidant Nanoshields for Proximal Tubule Epithelial Cells-Targeted Mitochondrial Holistic Protection in Acute Kidney Injury [0.03%]
用于急性肾损伤的近端小管上皮细胞靶向线粒体整体保护的全生物相容性抗氧化纳米屏蔽钽基材料
Yongqi Yang,Qiaohui Chen,Xiaohong Ying et al.
Yongqi Yang et al.
Acute kidney injury (AKI) has an alarmingly high annual incidence. Heterogeneous AKI shares a common pathological hallmark-excessive reactive oxygen species (ROS), primarily generated from damaged proximal tubular epithelial cells (PTECs). ...
Mattia Utzeri,Maria L Gatto,Edoardo Mancini et al.
Mattia Utzeri et al.
Next-generation protective systems require adaptive materials capable of reconfiguring their response to impact type and severity, thereby offering multiple force-displacement pathways. Here, the study introduces twisting metamaterials, a s...
Spatial Decoupling Strategy Enhanced Ionic Liquid-Confined Porous MXene for Breakthrough Osmotic Energy Conversion [0.03%]
空间解耦策略增强型室离子液体限域多孔MXene突破式渗透能量转换
Ziqi Ren,Qixiang Zhang,Jianyu Yin et al.
Ziqi Ren et al.
The potential of reverse electrodialysis for harvesting osmotic energy is severely limited by ion concentration polarization (ICP), a phenomenon that restricts power output and confines the technology to the laboratory scale (< 0.4 µW). Th...