Achieving 20.80% Efficiency in Ternary Organic Solar Cells via Suppression of Static and Dynamic Disorder [0.03%]
通过抑制静态和动态无序实现三元有机太阳能电池20.80%的效率
Jiali Song,Guangkuo Dai,Huotian Zhang et al.
Jiali Song et al.
Suppressing energetic disorder represents a critical pathway toward high-efficiency organic solar cells (OSCs). Herein, a ternary system is successfully developed to regulate the energetic disorder and enhance the photovoltaic performance o...
Dilute Electrolyte with Vehicular Aggregates for Stable High-Energy Lithium-Metal Batteries [0.03%]
含车辙集料的稀电解质用于稳定高能量锂金属电池
Xue Han,Chenlu Wang,Longji Xu et al.
Xue Han et al.
Electrolyte design is critical for high-energy lithium-metal batteries (LMBs) because it dictates the aggressive Li-electrolyte interphase that governs cycling stability and Coulombic efficiency (CE). However, traditional high- or locally h...
Polyimide-Linked Hexaazatriphenylene-Based Porous Organic Polymer with Multiple Redox-Active Sites as a High-Capacity Organic Cathode for Lithium-Ion Batteries [0.03%]
一种用于锂离子电池的具有多红ox活性位点的聚酰亚胺连接六唑三苯基衍生物多孔有机聚合物有机正极材料
Arindam Mal,Jonathan Caroni,Asia Patriarchi et al.
Arindam Mal et al.
The development of high-capacity, sustainable cathode materials remains a critical challenge in advancing lithium-ion battery technologies for next-generation energy storage. Organic electrode materials (OEMs) represent a promising alternat...
Mai Hussein Hamed,Yifan Xu,Hebatalla Elnaggar et al.
Mai Hussein Hamed et al.
Topographically complex interfaces offer a promising route to engineer magnetic textures in oxide thin films, with potential implications for next-generation spintronic and neuromorphic devices. Here, Fe3O4 thin films are grown on self-asse...
3D Printing of Gradient Biomimetic Scaffold via Electrochemical Molecular Lock for Tissue Regeneration [0.03%]
基于电化学分子锁的 gradient 生物仿生支架的3D打印技术在组织再生中的应用
Ke Yao,Pengcheng Xia,Weicheng Kong et al.
Ke Yao et al.
Gradient structures are widely present in tissues. The natural gradient exhibits an accuracy of 10 nm and possesses a four-level multi-scale structure (10nm-1cm). The accuracy of biological 3D printing is approximately 5um, which presents h...
Bioprinted Constructs in the Regulatory Landscape: Current State and Future Perspectives [0.03%]
生物打印构建体在监管环境中的现状与未来展望
Francesca Perin,Liliang Ouyang,Khoon S Lim et al.
Francesca Perin et al.
Bioprinting has become one of the leading topics in biomedical research in the past decade, as demonstrated by the great surge in publications and proliferation of bioprinting facilities worldwide. Bioprinting has gained widespread populari...
Janus Graphene Oxide Nanoplatform with Oppositely Functionalized Adhesion and Lubrication Enables Local Sustained Fenofibrate Release to Synergistically Halt Osteoarthritis [0.03%]
具有相反功能化的粘附和润滑双面利培酮的 janus 石墨烯纳米平台可协同阻止骨关节炎局部持续释放法尼酯类药物
Xi Chen,Hongfu Cao,Haoyuan Lei et al.
Xi Chen et al.
Osteoarthritis (OA) progresses via a destructive cycle involving cartilage damage, friction, lubrication loss, and chondrocyte senescence. Current therapies, limited to temporary lubrication or pain relief, fail to halt OA due to their inab...
Localized Water Confinement via Micellar Electrolyte for Aqueous Zinc-Vanadium Batteries [0.03%]
用于水系锌钒电池的胶束电解质局域化水合结构
Chen Zhang,Xueer Xu,Ziyu Chen et al.
Chen Zhang et al.
Highly reactive water-induced cascade failures, including vanadium dissolution, proton intercalation, hydrogen evolution reactions, and interfacial side reactions, limit the recyclability of vanadium-based aqueous zinc-ion batteries. These ...
Chenglong Zhang,Xiulun Yin,Chris Zhou et al.
Chenglong Zhang et al.
Skin is soft yet strong - a combination achieved by integrating compliant elastin with stiff but wavy collagen, producing non-linear mechanical properties. Inspired by this structure, stiff conductive wires are engineered into sinusoidal pa...
Engineered Crystalline Heterostructure Interphase Enabling Dendrite-Free Sodium Metal Anodes with Long-Term Stability [0.03%]
一种工程结晶异质结构界面实现免枝晶钠金属负极长期循环稳定性研究
Fenqiang Qi,Xueming Su,Ziling Huang et al.
Fenqiang Qi et al.
The advancement of sodium-ion batteries (SIBs) critically depends on the development of stable sodium metal anodes (SMAs). However, practical implementation remains hindered by uncontrollable dendritic growth and uneven Na stripping/plating...