Robust and Fast-Transforming Soft Microrobots Driven by Low Magnetic Field [0.03%]
一种低磁场驱动的鲁棒而快速变形的软微型机器人
Yuanyuan Wang,Haili Qin,Niu Liu et al.
Yuanyuan Wang et al.
Magnetically driven soft microrobots, characterized by their small size, soft structure, and responsiveness to magnetic fields, offer unique advantages such as high maneuverability, biocompatibility, and remote control, making them suitable...
Inhibiting Interfacial Failure in Garnet-Based Solid-State Batteries with High-Capacity Anodes: Mechanism and Strategies [0.03%]
高容量负极全固态电池 garnet 固体电解质界面失效机理及抑制策略
Zhexi Xiao,Zewei Zou,Kehao Zhao et al.
Zhexi Xiao et al.
Garnet-based solid-state electrolytes (SSEs) with exceptional reductive stability and superior ionic conductivity have emerged as promising candidates for next-generation solid-state batteries (SSBs). However, critical interface challenges ...
Fabrication of Organic/Inorganic Nanocomposites: From Traditional Synthesis to Additive Manufacturing [0.03%]
有机/无机纳米复合材料的制备:从传统合成到增材制造
Liwen Zhang,Xumin Huang,Liwei Liu et al.
Liwen Zhang et al.
Nanocomposites, are materials that incorporate nanosized particles into a matrix of standard material, have emerged as a versatile class of materials with tunable properties for a wide range of applications. Traditional fabrication approach...
Architected Liquid Crystal Elastomer Lattices with Programmable Energy Absorption [0.03%]
可编程能量吸收的架构液晶弹性体晶格
Rodrigo Telles,Julie A Mancini,Jorge-Luis Barrera et al.
Rodrigo Telles et al.
Architected LCE lattices are fabricated with flow-induced alignment via direct ink writing and systematically characterized their shape morphing, stiffness, and energy absorption behavior across strain rates spanning six orders of magnitude...
Sulfur-Doped IrO2 Enable Pathway Switch to Lattice Oxygen Mechanism with Enhanced Stability for Low Iridium PEM Water Electrolysis [0.03%]
硫掺杂铱氧化物使质子交换膜电解槽低铱电极反应路径切换并提升晶格氧机制稳定性
Chenlu Yang,Yanping Zhu,Fengru Zhang et al.
Chenlu Yang et al.
Achieving high activity and stability while minimizing Ir usage poses a significant challenge in the industrialization of proton exchange membrane water electrolysis (PEMWE). Herein we report a sulfur-doping strategy that enables the OER pa...
Surface Fluorination Shielding of Sulfide Solid Electrolytes for Enhanced Electrochemical Stability in All-Solid-State Batteries [0.03%]
用于全固态电池的硫化物固体电解质表面氟化保护以增强电化学稳定性
Kyu Tae Kim,Jae-Seung Kim,Ki Heon Baeck et al.
Kyu Tae Kim et al.
Despite their high Li+ conductivity and deformability, sulfide solid electrolytes suffer from limited electrochemical stability, which prevents all-solid-state batteries (ASSBs) from reaching their full performance potential. Herein, a faci...
Sumit Haldar,Theodor Griepe,Unai Atxitia et al.
Sumit Haldar et al.
Heat dissipation in nanomagnetic devices mediated by femtosecond laser excitation constitutes one of the pressing challenges toward energy-efficient applications yet to be solved. Of particular interest are heterostructures based on 2D van ...
A High-entropy Antiperovskite Nitride Enables Efficient Anion Exchange Membrane Water Electrolysis [0.03%]
一种高熵反钙钛矿氮化物促进高效阴离子交换膜电解水制氢
Jiaxi Zhang,Yuanhua Tu,Xiaomin Xu et al.
Jiaxi Zhang et al.
Despite the availability of many (oxy)hydroxide-based oxygen evolution reaction (OER) electrocatalysts with favorable intrinsic activity, few perform well in anion exchange membrane water electrolyzers (AEMWEs). Their poor electrical conduc...
Injectable Functional Porous Carbon-Loaded Hydrogel with Long-Term Retention and Synergistic Anti-Tumor Properties for Tumor Therapy [0.03%]
具有长期保留和协同抗肿瘤性能的可注射功能性多孔碳载氢凝胶用于肿瘤治疗
Dongtian Miao,Rui Luo,Yang Li et al.
Dongtian Miao et al.
In situ therapies show significant promise for the treatment of unresectable tumors that lack tumor supply vessels. However, it remains a tremendous challenge to achieve precise delivery and sustained release of anti-tumor agents with syner...
Chu-Liang Fu,Mouyang Cheng,Nguyen Tuan Hung et al.
Chu-Liang Fu et al.
Thermoelectric materials offer a promising pathway to directly convert waste heat to electricity. However, achieving high performance remains challenging due to intrinsic trade-offs between electrical conductivity, the Seebeck coefficient, ...