Direct Repair of the Crystal Structure and Coating Surface of Spent LiFePO4 Materials Enables Superfast Li-Ion Migration [0.03%]
废旧LiFePO₄材料的晶体结构和涂层表面直接修复实现超级快锂离子迁移性能
Yuanqi Lan,Jianfeng Wen,Yatian Zhang et al.
Yuanqi Lan et al.
The rapid accumulation of spent LiFePO4 (LFP) cathodes from retired lithium-ion batteries necessitates the development of effective and environmental-friendly recycling strategies. In this context, direct regeneration has emerged as a promi...
Atomically Dispersed Pt-Ru Dual-Atom Catalysts for Efficient Low-Temperature CO Oxidation Reaction [0.03%]
高效低温CO氧化反应的Pt-Ru双原子催化剂
Yanan Qi,Hongqiu Chen,Feng Hong et al.
Yanan Qi et al.
Single-atom catalysts (SACs) have demonstrated excellent performance in heterogeneous catalytic reactions owing to their maximized atomic efficiency, distinctive geometric, and electronic configurations. However, the efficacy of SACs remain...
Microscale Architectures for Intelligent Soft Robotics: From Functional Microneedles to Biointegrated Wearable Systems [0.03%]
智能软机器人的微尺度架构:从功能微针到生物集成可穿戴系统
Xin Li,Ran Xu,Chenchen Xie et al.
Xin Li et al.
Soft robots, characterized by compliance, adaptability, and multimodal responsiveness, represent a rapidly advancing frontier in biomedical applications, wearable technologies, and environmental exploration. This review summarizes recent pr...
Multifunctional Three-Dimensional Porous MXene-Based Film with Superior Electromagnetic Wave Absorption and Flexible Electronics Performance [0.03%]
具有优异电磁波吸收和柔性电子性能的多功能三维多孔MXene基薄膜
Li Chang,Xinci Zhang,Tingting Liu et al.
Li Chang et al.
The development of multifunctional electromagnetic wave-absorbing materials is essential for next-generation flexible electronics and intelligent protection systems. Herein, a novel three-dimensional porous MXene-based film integrated with ...
Multiscale Design of Dual-Gradient Metamaterials Using Gel-Mediated 3D-Printed Graphene Aerogels for Broadband Electromagnetic Absorption [0.03%]
基于凝胶介导的3D打印石墨烯气凝胶的宽带电磁吸收的双梯度 metamaterials 多尺度设计
Xiong Lv,Changfeng Li,Ge Wang et al.
Xiong Lv et al.
Three-dimensional (3D)-printed graphene aerogels hold promise for electromagnetic wave absorption (EWA) engineering due to its ultralow density, outstanding electromagnetic dissipation with the flexibility and precision of manufacturing str...
Scalable Manufacturing and Precise Patterning of Perovskites for Light-Emitting Diodes [0.03%]
用于发光二极管的钙钛矿的可扩展制造和精确图案化
Shuaiqi Liu,Hao Jiang,Jizhuang Wang et al.
Shuaiqi Liu et al.
Owing to the exceptional optoelectronic properties, metal halide perovskites have emerged as leading semiconductor materials for next-generation display technologies, providing perovskite light-emitting diodes (PeLEDs) great potential for h...
A High-Performance Thermal Charging Cell with High Power Density and Long Runtime Enabled by Zn2+ and NH4+ Co-insertion [0.03%]
一种高性能热充电电池:Zn2+和NH4+共嵌入实现高功率密度和长运行时间
Zhiwei Han,Shengliang Zhang,Helang Huang et al.
Zhiwei Han et al.
Zn-based thermal charging devices, utilizing the synergistic effect of ion thermoextraction and thermodiffusion, are able to efficiently convert thermal energy into electrical energy and storage in the devices, making them a highly promisin...
Annular Microfluidic Meta-Atom Fusion-Enabled Broadband Metamaterial Absorber [0.03%]
基于环形微流控元原子融合的宽带 metamaterial 吸收体
Jinpeng Peng,Yi Zhang,Zihao Chen et al.
Jinpeng Peng et al.
Electromagnetic (EM) metamaterial absorbers (MMAs) with broadband absorption are of growing interest for applications such as stealth and EM interference mitigation. In this work, we present a novel 3D-printed MMA based on a fused annular m...
Hydrogel Electrolytes for Zinc-Ion Batteries: Materials Design, Functional Strategies, and Future Perspectives [0.03%]
锌离子电池水凝胶电解质:材料设计、功能性策略和未来前景
Zhengchu Zhang,Yongbiao Mu,Lijuan Xiao et al.
Zhengchu Zhang et al.
With the escalating demand for safe, sustainable, and high-performance energy storage systems, hydrogel electrolytes have emerged as promising alternatives to conventional liquid electrolytes in zinc-ion batteries. By integrating the high i...
Confining Li⁺ Solvation in Core-Shell Metal-Organic Frameworks for Stable Lithium Metal Batteries at 100 °C [0.03%]
用于100℃稳定锂金属电池的核壳型金属有机骨架结构限制Li⁺溶剂化层研究
Minh Hai Nguyen,Jeongmin Shin,Mee-Ree Kim et al.
Minh Hai Nguyen et al.
The practical deployment of lithium metal batteries remains severely constrained, especially under elevated temperatures. Although metal-organic frameworks (MOFs) improve the thermal stability of liquid electrolytes by capturing them in wel...