Phosphate Bonded Perchloric Superstructure Enables Energy-Dense and Ultra-Stable Aqueous Sodium-Ion Batteries [0.03%]
磷酸根粘结的高氯酸盐超级结构用于能量密集型和超稳定水系钠离子电池
Zhongyi Liu,Yuebin Zhang,Kaihang Yue et al.
Zhongyi Liu et al.
Aqueous sodium-ion batteries (ASIBs) offer a cost-effective and safe platform for grid-scale energy storage, but their practical application is impeded by poor energy density and limited operating time, primarily due to the sluggish Na+ int...
Design Strategies for High-Performance Piezoelectric Energy Harvesting Devices [0.03%]
高性能压电能量采集装置的设计策略
Jishi Zhou,Mingzi Liu,Siqi Gao et al.
Jishi Zhou et al.
Smart sensor networks play important roles in structural monitoring, health diagnosis, and data transmission. Given their extensive distributed energy requirements, piezoelectric energy harvesting, which aims to convert mechanical vibration...
Non-Equilibrium Manufacturing for High-Energy-Input Solid-State Battery Materials [0.03%]
高能量输入固态电池材料的非平衡制造法
Hao Shen,Zhanhui Jia,Yuyang Zhang et al.
Hao Shen et al.
All-solid-state lithium batteries (ASSLBs) offer enhanced safety, energy density, and longevity, presenting transformative potential for energy storage. However, conventional manufacturing of oxide-based battery materials, such as garnet-ty...
Channel Confinement: A Novel Approach to Tackle Batch Variation in Conjugated Polymers for Organic Electrochemical Transistors [0.03%]
通道限制:解决有机电化学晶体管共轭聚合物批量变化的新方法
Zhu Chen,Kangyun Liu,Jinhao Zhou et al.
Zhu Chen et al.
Polymer electronics have attracted extensive attention due to their intrinsic flexibility, structural modifiability, and cost-effective fabrication. However, compared to silicon electronics, polymer semiconductors suffer from their inherent...
Vacancy-Engineered Ceria Enables 4f-Orbital-Driven Redox Catalysis for Bidirectional Sulfur Conversion in Li─S Batteries [0.03%]
缺陷型氧化铈通过4f轨道驱动的红氧催化学反应实现锂硫电池中双向转化反应
Jiaqin Liu,Heng Zhuo,Xiaofei Zhang et al.
Jiaqin Liu et al.
Redox-flexible rare-earth catalysts featuring partially filled 4f orbitals enable orbital-level modulation of sulfur electrochemistry. Here, an oxygen-vacancy-engineered CeO2/carbon nanotube (Ov-CeO2/CNT) composite is reported, configured a...
siAkt2-Loaded Nanoparticles Reprogramming Macrophages to M2 Phenotype for Effective Bone Defect Repair [0.03%]
负载siAkt2的纳米粒子重编程巨噬细胞向M2表型以有效修复骨缺损
Shengjie Cui,Xiaowei Wu,Xiaotong Yu et al.
Shengjie Cui et al.
Targeted siRNA delivery has been widely used to regulate cell function. However, the rapid degradation of siRNA within macrophages upon delivery severely limits its utility for regulating macrophage function. Here, a novel technique is deve...
Flexible, Stackable, and Fully Active Thick Electrode with Scalable 3D Topology Braid Structure Enables Supercontinuous Electron/Ion Transport [0.03%]
灵活的、可堆叠的和全活性的厚电极及其可扩展的三维编织结构实现超连续的电子/离子传输
Ying-Ying Wang,Huan Chen,Jia-Lin Yang et al.
Ying-Ying Wang et al.
Thick electrode design is critical for achieving high energy/power density storage. However, it remains a huge challenge to design a fully-active thick electrode with supercontinuous electron/ion transport channels by a cost-effective metho...
Pressure-Modulated Molecular Stacking Strategy Extends Exciton Diffusion Length for Thick-Film (300 nm) Organic Photovoltaics Exceeding 19% Efficiency [0.03%]
压力调制的分子堆积策略延长了厚膜(300nm)有机光伏器件的激子扩散长度,使效率超过19%
Chengdu Cao,Houdong Mao,Lifu Zhang et al.
Chengdu Cao et al.
Thick-film (>300 nm) organic solar cells (OSCs) have attracted increasing attention in recent years due to their compatibility with large-scale industrial production. However, the inherently short exciton diffusion length (LD) of organic se...
Programmable Thermochromic Coatings via Interfacial Phase Fusion-Separation Engineering [0.03%]
基于界面相融合-分离工程的可编程温致变色涂层
Xinyan Ai,Yunpeng Wang,Lin Zhang et al.
Xinyan Ai et al.
Thermoresponsive structural color materials hold great promise for dynamic anti-counterfeiting and thermal monitoring, yet their widespread adoption is hindered by complex self-assembly processes and limited scalability. Here, an innovative...
Microscopic Insights into Magnetic Warping and Time-Reversal Symmetry Breaking in Topological Surface States of Rare-Earth-Doped Bi2Te3 [0.03%]
稀土掺杂Bi2Te3拓扑表面态中磁畸变和时间反演对称性破缺的微观机理研究
Beatriz Muñiz Cano,Fabián Calleja,Ji Dai et al.
Beatriz Muñiz Cano et al.
Magnetic interactions at the surface of topological insulators provide a versatile route to engineer exotic quantum states. Breaking time-reversal symmetry (TRS) at the topological surface state (TSS) enables the opening of a Dirac gap, whi...