Advancing Stem Cell Bioprinting to Bridge Engineered and Natural Tissue Constructs [0.03%]
推进干细胞生物打印以连接工程和天然组织构建体
Qi Gu
Qi Gu
The complexity of human organs arises from sophisticated cell interactions and dynamic, spatially precise developmental processes. Traditional tissue engineering and bioprinting technologies have made considerable progress, yet remain limit...
Microphase-Separated Elastomers Enable Synergistic Dispersion and Coalescence Control in Conductive Pastes for Fine Printing [0.03%]
微相分离弹性体在精细印刷导电膏中的协同分散及共聚控制
Zhizhuo Hou,Haocheng Ji,Zhaohuang Zhan et al.
Zhizhuo Hou et al.
With the advancement of high-power and fine-feature electronic devices, metallic pastes have emerged as essential conductive materials, whose performance largely depends on the structure of the organic carrier. Conventional polyamide wax th...
High-Performance Flexible Pyroelectric Energy Harvesting System Enabled by Light-Driven Thermomechanical Coupling in Liquid Crystal Elastomer [0.03%]
一种基于液晶弹性体光致热机耦合的高性能柔性温差发电系统
Jia-Qi Luo,Jie-Ke Xu,Hari Krishna Bisoyi et al.
Jia-Qi Luo et al.
Liquid crystal elastomers (LCEs) with reversible thermal actuation are promising platforms for multifunctional flexible electronics. Herein, we present a PVDF/LM-LCE (PVDF, polyvinylidene fluoride; LM, liquid metal) composite in which PVDF ...
Phase-Field Simulations in Ferroic Nanodomains: Defect-Field Driven Microstructure-Functionality Manipulation [0.03%]
铁电纳米畴的相场模拟:缺陷场驱动的功能性调控
Chuanxin Liang,Liqiang He,Le Zhang et al.
Chuanxin Liang et al.
The quest for precise defect-field-driven microstructure-functionality manipulation represents a frontier in the design of next-generation ferroic materials. In ferroelastics, ferroelectrics, and ferromagnetics alike, nanoscale domain confi...
Cold-Induced Pyroelectric Stimulation Enhances Implant Osteointegration via TRPM8 Activation [0.03%]
冷诱导焦电刺激通过激活TRPM8促进植入物骨结合
Kai Li,Zishan Xu,Xiaojia Liu et al.
Kai Li et al.
Electrical signals serve as important modulators in bone regeneration, yet recreating this self-sustaining bioelectrical microenvironment at the peri-implant interface remains challenging. In this study, we engineered pyroelectric nanostruc...
Heavy Chalcogen Elements in OLEDs: Advances of Sulfur and Selenium for Organic Light-Emitting Materials [0.03%]
有机发光材料中的重硫族元素:硫和硒的研究进展
Mengke Li,Zijian Chen,Shi-Jian Su
Mengke Li
The rapid development of organic light-emitting diodes (OLEDs) has spurred extensive efforts toward the design of high-performance organic materials. Among various molecular design strategies, the incorporation of heavy chalcogen elements h...
Potentiating Antibody-Dependent Cell-Mediated Cytotoxicity via Tumor-Specific Anchoring and Activation of Nano-Haptens [0.03%]
基于肿瘤特异性的纳米抗原模拟物的锚定与激活以增强抗体依赖的细胞毒性作用
Huan Ye,Jing Yan,Yang Zhou et al.
Huan Ye et al.
Tumor-surface antigen deficiency and immunosuppressive tumor microenvironment (TME) hurdle the efficacy of antibody-dependent cellular cytotoxicity (ADCC) mediated by natural killer (NK) cells. Here, acid-activatable, polypeptide-based nano...
Droplet Electricity Generators With Maximized Energy Collection Zone Enabled by Aloe-Inspired Midrib and Cuticle [0.03%]
受仙人掌叶脉和表皮启发的最大化能量采集区域的液滴发电器件
Gibeom Lee,Eunbyeol Kim,Kyongtae Choi et al.
Gibeom Lee et al.
Leveraging water as an abundant and continuously available natural resource, droplet electricity generators (DEGs) have gained significant attention for their ability to produce high instantaneous voltages from the simple impact of water dr...
Kunfeng Liu,Rong Huang,Wanyuan Li et al.
Kunfeng Liu et al.
Light-driven micro/nanorobots (LMNRs) offer on-demand propulsion governed by light direction, wavelength, and polarization, yet their architectures and navigation behaviors have been constrained by limited fabrication strategies. Here, we p...
From Spent Batteries to Green Hydrogen: Catalytic Upcycling of Lithium-Ion Battery Cathodes for Water Electrolysis [0.03%]
从废旧锂离子电池正极 catalytic upcycling 制备电解水制绿氢催化剂
Min Wang,Liming Lei,Cenkai Zhao et al.
Min Wang et al.
The accelerating global "dual-carbon" transition and the rapid proliferation of electric vehicles are driving an unprecedented surge in spent lithium-ion batteries (LIBs), with the first major retirement peak expected around 2030. Cathode m...