Chemically Recyclable and Tunable Polyolefin-Like Multiblock Copolymer Adhesives [0.03%]
可化学回收及性能可调的类聚烯烃型多嵌段聚合物胶黏剂
Yucheng Zhao,Ethan C Quinn,Megan E Battson et al.
Yucheng Zhao et al.
Adhesives are important in creating multilayer products, such as in packaging and construction. Most current hot-melt adhesives such as poly(ethylene-co-vinyl acetate) (EVA) and polyurethanes lack chemical recyclability and do not easily de...
Ultralow-Cost Lacunary Metal-Oxo Framework Enables Efficient and Stable Organic Solar Cells [0.03%]
亚硝基金属氧框架超低成本使高效且稳定的有机太阳能电池成为可能
Lingchen Kong,Baobing Fan,Xiaofeng Huang et al.
Lingchen Kong et al.
Organic solar cells (OSCs) with p-i-n architecture usually exhibit decent efficiency due to the easily tunable energy levels of organic interfacial layers (ILs). However, their operational lifetime is limited by the morphological instabilit...
Quantitative Super-Resolution Imaging of On-Origami DNA Conformation and Reactivity Under Electric Fields [0.03%]
origami 上DNA的构象及电场下反应性的定量超分辨率成像研究
Zhongchao Jin,Yiyang Zeng,Xiaodong Xie et al.
Zhongchao Jin et al.
Self-assembled DNA nanostructures have been popularly used to develop DNA-based electrochemical sensors by exploiting the nanoscale positioning capability of DNA origami. However, the impact of the electric field on the structural stability...
Emphasizing a-parameter Expansion in Lattice Distortions of Disordered Rock Salt Li3V2O5: From Crystallographic Design to Feasible Large-Scale Chemical Lithiation [0.03%]
从晶体设计到可行的大规模化学锂化:无序岩盐Li3V2O5晶格畸变中a参数膨胀的重要性
Lingfeng Shi,Ziwei Liu,Jiale An et al.
Lingfeng Shi et al.
Disordered rock-salt Li3V2O5 (DRX-LVO) anode exhibits distinctive 3D Li+ percolation transport networks, which offers the unique advantage for ultra-charging. However, the existing chemical lithiation preparation routes not only pose safety...
Engineering Covalent and Noncovalent Interface Synergy in MXenes for Ultralong-life and Efficient Energy Storage [0.03%]
工程协同作用使 MXene 在超长寿命和高效能量存储方面取得突破性进展
Mengting Cheng,Wei Guo,Wanbin Dang et al.
Mengting Cheng et al.
MXenes serve as pivotal candidates for pseudocapacitive energy storage owing to sound proton/electron-transport capability and tunable topology. However, the metastable surface terminal properties and the progressive oxidation leads to dras...
Dual-Stimulus Programmed Multiphase Separation and Organization in Coacervate Droplets [0.03%]
共组装液滴中的双重刺激程序化多相分离与组织现象研究
Yang Zhou,Brigitte Voit,Dietmar Appelhans
Yang Zhou
Stimuli-responsive (multiphase) coacervates deserve significant attention as cell-like entities that can adapt to their environment and undergo morphological reconfiguration. In this study, a tandem-triggered transition system is presented ...
Catalysis of Radical Coupling Reaction via Synergistic Action of Oriented External Electric Field and Light Irradiation [0.03%]
定向外电场和光照协同催化的自由基偶联反应
Hefa Feng,Fenglu Hu,Xin Zuo et al.
Hefa Feng et al.
Radical coupling reactions have been widely used in the synthesis of complex organic molecules, materials science, and drug research. However, restricted conditions or special catalysts are required to overcome the energy barrier and trigge...
CO2 Versus CH4 Aggregation on Trifluorobenzene: Molecular Level Characterization via Rotational Spectroscopy [0.03%]
二氧化碳和甲烷在三氟苯上的聚集:通过旋转光谱进行分子水平表征
Fan Xie,Melanie Schnell
Fan Xie
The cluster growth behavior of CO2 and CH4 on an aromatic ligand has been studied through the unambiguous identification of complex structures of 1,2,3-trifluorobenzene-(CO2)1-4 and -ß(CH4)1-2 using broadband rotational spectroscopy in con...
Dual-Locked Polymeric STING Nano-Agonist/Sonosensitizer Augments Spatiotemporally Controlled Cancer Sono-Immunotherapy [0.03%]
时空可控的癌症超声免疫治疗的双锁定聚合物STING纳米激动剂/声敏化剂
Yiwen Jia,Wencong Jia,Zhengqi Tang et al.
Yiwen Jia et al.
The stimulator of interferon genes (STING) pathway is a central target in cancer immunotherapy, but current STING agonist therapies lack precision control, leading to suboptimal therapeutic outcomes and systematic adverse effects. Herein, w...
Electronic Structure Reconfiguration of Zn-NxB4- x Sites for Enhanced Fenton-Like Catalysis [0.03%]
Zn-NxB4-x位点的电子结构重构增强类芬顿催化性能研究
Xiao Ge,Jinze Xu,Tao Zhou et al.
Xiao Ge et al.
Despite growing interest in single-atom catalysts (SACs) for Fenton-like reactions, zinc (Zn)-based SACs remain unexplored due to the inherent inertness of Zn2+, whose fully occupied 3d10 electronic configuration limits redox activity. Here...