Cryopreservative Bioink Enables Direct Bioprinting of Adherent Cells [0.03%]
cryopreservation生物墨水直接生物打印贴壁细胞
Xiyuan Zhao,Shenglong Ding,Dadi Sun et al.
Xiyuan Zhao et al.
Cryopreservation-integrated bioprinting represents a promising approach for tissue regeneration by combining cell-laden bioink freezing with direct post-thaw printing, bypassing traditional culturing steps. However, key challenges remain: i...
Concurrent Hydrolysis Resistance and High Thermal Conductivity in Aluminum Nitride Enabled by Phase-Engineered Graphene Encapsulation [0.03%]
基于相工程石墨烯包覆的氮化铝中的导热率和耐水解性共存现象研究
Yuzhu Wu,Yueming Hu,Qiuyue Zhang et al.
Yuzhu Wu et al.
Aluminum nitride (AlN) stands as a cornerstone material for next-generation thermal management, yet its notorious susceptibility to hydrolysis severely undermines long-term reliability. Here, we transcend conventional surface modification b...
Wojciech Chrzanowski,Joy Wolfram
Wojciech Chrzanowski
Extracellular vesicles mediate intercellular communication through transport of bioactive cargo from producing to recipient cells. Cellular uptake and subsequent cytoplasmic release of internal cargo is often emphasized as the main mechanis...
Continuous Monitoring of Body Fluid by Flexible Bio-Integrated Flow Sensors [0.03%]
用于持续监测机体体液的柔性可体内集成流体传感器
Zhiqiang Ma,Deyuan Zhang,Mohd Faizul Mohd Sabri et al.
Zhiqiang Ma et al.
Body fluids play pivotal roles in maintaining health. Flexible bio-integrated flow sensor (BIFS) devices and systems overcome the bulky size and intermittent monitoring of conventional clinical equipment. They enable real-time, continuous m...
Overcoming Mechanical-Thermal Trade-Off in Aerogel-Encapsulated Phase Change Composites via Biomimetic Honeycomb Engineering [0.03%]
通过仿生蜂窝工程技术克服气凝胶封装相变复合材料的机械-热性能权衡问题
Yue Zhang,Yongjian Zhang,Yahao Zhang et al.
Yue Zhang et al.
Passive thermal management systems that utilize phase change materials (PCMs) demonstrate significant potential in addressing the challenges of electronic overheating, but the low associated thermal conductivity and liquid PCM leakage hinde...
Molecular-Level Recognition Surfaces Drive Machine-Learning Discrimination of Homologous Gases [0.03%]
分子识别表面可驱动同系气体的机器辨别
Yu Liu,Xiaowei Li,Xinghua Li et al.
Yu Liu et al.
Chemoresistive semiconductor sensing empowered by machine learning offers a promising route for accurate discrimination and quantification of chemically homologous gases, but remains challenging due to overlapping adsorption behaviors durin...
Recent Progress in Infrared Detection From Material Advances to Integrated Intelligent Systems [0.03%]
从材料进展到集成智能系统:红外探测研究的近期成果
Cheng Zhang,Yilin Niu,Ziyu Zhang et al.
Cheng Zhang et al.
Growing industrial, environmental, and healthcare needs are accelerating the development of next-generation infrared systems with high detectivity, multifunctional sensing, and on-device intelligence. While traditional devices (e.g., HgCdTe...
Elastic Organic Crystals of Semiconducting Hydrocarbon Fully π-Conjugated Molecules for Efficient Flexible Ultra-Deep-Blue Amplified Spontaneous Emission Waveguides [0.03%]
全π共轭半导体烃的弹性有机晶体高效柔性深紫外放大自发辐射波导
Xinyu Du,Ningning Yu,Chuanxin Wei et al.
Xinyu Du et al.
Efficient ultra-deep-blue light-emitting elastic organic crystals are promising candidates for flexible optoelectronics owing to their low defect density, regular intermolecular packing, and excellent mechanical stability. However, heteroat...
Self-Regulating Sodium-Ion Battery Materials: From Phase Reconstruction to Functional Activation [0.03%]
自调节钠离子电池材料:从相重构到功能性激活
Hong Gao,Dingyi Zhang,Chao Wang et al.
Hong Gao et al.
Sodium-ion batteries are advancing toward practical deployment, yet their long-term durability is governed not by static material properties but by the coupled evolution of the lattice, interface, and electrolyte environments under operatin...
In Vivo Target Drug Enrichment Based on Spatiotemporal Acoustic Node Modulation (STANM) for Bladder Cancer Treatment [0.03%]
基于时空声结调制(STANM)的膀胱癌治疗体内靶向药物富集
Yimeng Su,Jingjing Wu,Zhaoyu Deng et al.
Yimeng Su et al.
Chemotherapy has been clinically used for cancer treatment. However, insufficient drug concentration at the target site limits the therapeutic effect. Here, we introduce an in vivo target drug enrichment method, which is based on spatiotemp...