Colloidal Photonic Fibers for Reflectively Colorful Radiative Cooling Fabrics [0.03%]
用于反射性多彩辐射冷却织物的溶胶光学纤维
Sewon Ahn,Jaewon Lee,Soyul Kwak et al.
Sewon Ahn et al.
Daytime radiative cooling has emerged as a promising passive strategy for sustainable thermal management, yet its widespread implementation remains hindered by the lack of colorful, transformable, and scalable material systems. Here, we pre...
Ultralight Conductive MXene Aerogels: From Material Design to Energy, Environment, and Electronic Applications [0.03%]
超轻MXene气凝胶:从材料设计到能源、环境和电子应用
Narasimharao Kitchamsetti,HyukSu Han,Sungwook Mhin
Narasimharao Kitchamsetti
MXene-based aerogels have emerged as a fast-growing family of porous materials that merge the intrinsic electrical conductivity and layered morphology of MXenes with an ultralight, great surface-area framework of aerogels. This synergistic ...
Doste R Mamand,Oskar Gustafsson,Helena Sork et al.
Doste R Mamand et al.
Extracellular vesicles (EVs) are nano-scale structures produced by cells that transport biological substances for intercellular communication. The tetraspanins CD9, CD81, and CD63 are crucial to EV biogenesis and function. This study uses C...
Self-Assembled Monolayer Anode Enables 7% Efficiency in Y6-Based Quasi-Homojunction Solar Cells With 4% Donor Contents [0.03%]
自组装单分子层阳极在基于Y6 quasi-homojunction太阳能电池中的应用(给体含量为4%)达到了7%的效率
Man Hing Suen,Zhuoqiong Zhang,Yidan An et al.
Man Hing Suen et al.
Quasi-homojunction (QHJ) organic solar cells (OSCs) offer a promising alternative architecture that combines the advantages of bulk heterojunction (BHJ) and homojunction (HJ) designs. By blending a minimal fraction of donor material (a few ...
Plasmonic Chiral Metasurfaces for Real-Time Refractive Index Sensing and In Situ Monitoring of Thin Film Growth [0.03%]
用于实时折射率检测和薄膜原位生长监测的手性等离激元超表面
Sevil Veysalova,Benjamin Boglio,François Courtier et al.
Sevil Veysalova et al.
Molecular sensing plays a crucial role in biomedical, chemical, and environmental applications. Traditional plasmonic sensors based on surface plasmon resonance offer excellent sensitivity but face limitations in molecular specificity, scal...
A Chemiluminescence-Activated Photodynamic Platform to Penetrate MRSA Biofilms and Counteract H2S-Mediated Defense [0.03%]
一种激活型化学发光光动力抗菌平台:靶向MRSA生物被膜并阻断H2S防御功能
WeiYe Ren,WeiYi Cheng,Li He et al.
WeiYe Ren et al.
The rapid escalation of antibiotic resistance has profoundly limited the effectiveness of conventional antimicrobial therapies, underscoring an urgent need for alternative antibacterial strategies. In this study, we present an innovative, a...
Characterization of Stable NiO x /SrTaO x N y Bilayers Boosting the Oxygen Evolution Reaction for Solar Water Splitting [0.03%]
用于太阳能水分解的提升氧析出反应的稳定NiO x /SrTaO x N y 双层膜结构研究
Zahra Pourmand Tehrani,Kyle J Stephens,Vladimir Roddatis et al.
Zahra Pourmand Tehrani et al.
SrTaO x N y (STON) is a well-known visible light-responsive semiconductor with ideally located band edges that allow the operability of overall water splitting. Like many oxynitrides, STON shows evidence of detrimental physicochemical chang...
A Programmable Eukaryotic Argonaute Nuclease with Dual DNA and RNA Cleavage Activity from Thermophilic Fungus Thermochaetoides thermophila [0.03%]
来自高温子囊菌Thermochaetium thermophila的可编程真核Argonaute核酸内切酶,具有双链DNA和RNA切割活性
Zhizhao Chen,Fei Wang,Xiaolan Yu et al.
Zhizhao Chen et al.
Eukaryotic Argonautes (eAgos) are well-known for their role in utilizing RNA guides to recognize and cleave RNA targets, thereby participating in posttranscriptional regulation and RNA interference. However, it remains unclear whether certa...
Dopamine-Mediated Analog Control of Electrochromic Reactions Through Organic Electrochemical Transistor [0.03%]
基于有机电化学晶体管的多巴胺控制电致色反应研究
Giada D&#x;Altri,Federica Mariani,Filippo Bonafè et al.
Giada D&#x;Altri et al.
The growing interest in bioinspired devices has led to a focus on bridging biological and electronic systems. Current bioelectronic devices predominantly rely on electrical signals and are unable to faithfully emulate the chemical signaling...
Tunable Core-Shell Metal Alloy Pillar Design in Vertically Aligned Nanostructures Toward Multifunctionality [0.03%]
面向多功能性的垂直排列纳米结构中的可调核壳金属合金柱设计
Abhijeet Choudhury,Benson Kunhung Tsai,Ping Lu et al.
Abhijeet Choudhury et al.
Multiphase nanostructures provide a powerful platform for multifunctional materials by integrating different phases with unique functionalities for coupling effects. Here, we explore an alloy-based vertically aligned nanocomposite (VAN) thi...