Light Intensity-Driven Bidirectional Photoresponse Vision Sensor for Autonomous Obstacle Avoidance System [0.03%]
一种用于自主避障系统的光照强度驱动的双向光响应视觉传感器
Zhen Liu,Sen Zhang,Pingdan Xiao et al.
Zhen Liu et al.
Bio-inspired vision sensors emulating neural-pathway processing hold significant promise for next-generation robotics and artificial intelligence. However, achieving biomimetic threat-distance adaptation, where escape initiation dynamically...
Reversible Thermoactuation Unlocks Minimally Invasive Implantation and Retrieval of Soft Bioelectronics [0.03%]
可逆热驱动解锁了柔软生物电子设备的微创植入和回收技术
Qinyi Zhao,Qiliang Liu,Bin Li et al.
Qinyi Zhao et al.
Minimally invasive delivery of bioelectronics is currently limited by the irreversibility of deployment, rendering device retrieval traumatic and hindering clinical translation. Here, for the first time, we introduce a novel thermoresponsiv...
Wenbo Deng,Feng He,Yuliang Li
Wenbo Deng
How to manipulate the surface of the supports to control metal atoms is frontier research that has emerged in recent years in the field of catalysis. However, the precise and controllable synthesis of metal atom systems with well-defined st...
Topology-Regulated Polyurea: From Structural Design to Emerging Applications [0.03%]
拓扑设计规则聚脲:从结构设计到新兴应用
Zhipeng Zhang,Dandan Hu,Ying Jing et al.
Zhipeng Zhang et al.
As a high-performance elastomeric material, polyurea has attracted considerable attention for use in impact protection, functional coatings, adhesives, and flexible electronics, primarily owing to its excellent mechanical properties, except...
Co1/Ru Single-Atom Alloy Catalyst for Sustainable Polypropylene Hydrogenolysis to Long-Chain Liquid Products [0.03%]
用于可持续生产长链液体产品的聚丙烯氢解的单原子合金催化剂
Yuzhen Ge,Yimeng Jin,Alexandra Krestnikova et al.
Yuzhen Ge et al.
Achieving selective polyolefin waste hydrogenolysis into fuels and chemicals requires architectures that disrupt Ru─Ru ensembles without compromising the intrinsic activity of the state-of-the-art Ru catalyst. While metal modifiers can ben...
Compact Solvation Enables Sub-Minute Sodium-Ion Storage: A Data-Driven Perspective [0.03%]
基于数据驱动的钠离子存储研究:紧密溶剂化作用使钠离子存储时间缩短至亚分钟级别
Mingxu Wang,Chenyu Tang,Jinyu Yang et al.
Mingxu Wang et al.
Extremely fast charging (XFC) of batteries holds significant importance in the era of intelligent technologies, yet the intricate role of electrolyte properties in determining XFC behavior remains obscure. Furthermore, conventional theories...
Partial Atomic Disordered Ti2Nb10O29 -x Induced by Joule Thermal Shock for Superior Lithium-Ion Storage [0.03%]
由焦耳热冲击引发的部分原子无序Ti2Nb10O29-x用于优异的锂离子存储性能
Yuwei Zhao,Wujie Dong,Shiyu Zhang et al.
Yuwei Zhao et al.
Nb2O5 is a promising anode for high-power lithium-ion battery, but its relatively dense atomic packing limits Li+ migration capacity exertion. Ti2Nb10O29 with Wadsley-Roth phase with more open crystal structure is considered a promising can...
Crystallization Pathway Optimization and High-Index Facet Stabilization for Perovskite Photovoltaics [0.03%]
钙钛矿光伏材料的结晶路径优化及高指数晶面稳定化
Yili Wang,Keli Wang,Peng Gao et al.
Yili Wang et al.
Perovskite solar cells (PSCs) face a critical challenge in balancing high power conversion efficiency (PCE) with operational stability, largely governed by the crystallization kinetics and facet configuration of perovskite films. Here, we r...
Double-Sided Mechanical Interlocking Enables Soft-Rigid Conductive Interfaces With a Record High Toughness for Flexible Electronics [0.03%]
双面机械互锁实现刚柔并济的导电界面用于柔性电子器件,并获得超高韧性记录
Gang Li,Minkun Cai,Chunyan Cao et al.
Gang Li et al.
The pronounced mismatch between polymeric electrodes and metallic components hinders the formation of robust electrical contacts. While most approaches rely on chemical design to strengthen interfacial interactions, we present a double-side...
Bubble Formation Control: Fabrication of Centimeter-Sized Tissue-Like Constructs by Catalase-Coated Oxygen-Releasing Hydrogel [0.03%]
通过过氧化氢酶涂层的氧气释放型水凝胶控制气泡形成:制造厘米级仿生组织的构建方法
Sukulya Bunuasunthon,Isabel F Amaral,Ana P Pêgo et al.
Sukulya Bunuasunthon et al.
Developing thick three-dimensional (3D) scaffolds remains challenging due to oxygen depletion and limited cell viability. Calcium peroxide (CaO2)-catalase-based oxygen-releasing biomaterials are a common solution, but the uncontrolled relea...