Nanomaterials Reinforced Antifouling Coatings: From Strategic Design to Potential Applications [0.03%]
纳米材料增强防污涂层:从战略设计到潜在应用
Xiangyu Li,Zhiqun Yu,Jianyang Wang et al.
Xiangyu Li et al.
Diverse microorganisms routinely organize into biofilms, posing a persistent threat to ecological contamination, industrial dysfunction, and public health. Engineered antibacterial nanomaterials, achieving several orders of magnitude reduct...
Nitrogen-Rich Azolate Framework-Derived Porous Carbon Nanocomposite Hydrogels Shielding Material with Tunable Dynamic Bonding-Induced Self-Healing Properties [0.03%]
富氮叠氮化物框架衍生的多孔碳纳米复合水凝胶及其可调动态键诱导自修复性能
Yifan Kang,Miao Ma,Jiacheng Ma et al.
Yifan Kang et al.
Conductive hydrogels are promising candidates for electromagnetic interference (EMI) shielding in flexible and wearable electronics, yet their practical implementation remains hindered by low-temperature freezing and mechanical fragility. A...
Molly M Stevens,John A Rogers,Sei Kwang Hahn
Molly M Stevens
Heteroepitaxial Strain Engineering and Interfacial Energy Transfer Boosting Optoelectronic Properties in C60/WS2 van der Waals Heterostructures [0.03%]
异质外延应变工程和界面能量传递增强C60/WS2范德华异质结构的光电性能
Jing Guo,Zhichao Cheng,Jiarong Liu et al.
Jing Guo et al.
Engineered van der Waals (vdW) heterostructures, combining molecular semiconductors and atomically flat nanomaterials, offer vast opportunities to tailor optoelectronic properties at heterointerfaces. Here, the heteroepitaxial assembly of C...
Bioinspired Superwetting Nanomaterials and Beyond: Ultralow Energy Consumption in High-Efficiency Bio-Synthesis, Energy Conversion, and Information Transmission [0.03%]
向生物启发的超浸润纳米材料迈进:高效生物合成、能源转换和信息传输中超低能耗
Xiqi Zhang,Lei Jiang
Xiqi Zhang
This Perspective first briefly summarizes the progress of superwettability research in the group over the past 25 years, starting by studying the effect of nanostructure and micro/nanostructure on surface wettability. The intrinsic wetting ...
Robust Metal and Semiconductor Phase Transition Memristor Using Ag-Intercalated Transition Metal Dichalcogenide [0.03%]
用于忆阻器的稳定金属和半导体相变材料:Ag插层过渡金属二硫属化合物基忆阻器
Whan Kyun Kim,Ga Young Cho,Thi Thanh Huong Vu et al.
Whan Kyun Kim et al.
Metal (1T/1T')-semiconductor (2H) phase transition memristors (PTMEMs) based on intercalated alkali metal ions (Li+) in transition metal dichalcogenides (TMDs) exhibit excellent electrical properties, including heterosynaptic plasticity. Ho...
Richard Z Zhuang,Francois Chesnais,Gordana Vunjak-Novakovic
Richard Z Zhuang
The integration of hierarchical, perfusable vasculature remains one of the most critical and unresolved challenges in engineering human cardiac tissues. Although substantial progress has been made in independently advancing myocardial and v...
Anisotropic Thermal Conductivity of Lithium-Ion Batteries at the Full-Cell Level: A Review of Methodology Advances, Data Analytics, and Future Applications [0.03%]
锂离子电池满电极化温度传导性各向异性的方法进步、数据分析及未来应用综述
Liang Wang,Jia Liu,Guang-Bo Liu et al.
Liang Wang et al.
The knowledge of anisotropic thermal conductivity of lithium-ion batteries (LIBs) is paramount for accurate battery thermal modeling and diagnosis because of its decisive influence on the internal temperature distribution and overall therma...
Prolonged-Nucleation Strategy via an Asymmetric Brominated Acceptor Enables > 20% Efficiency in Five Different Organic Solar Cells [0.03%]
一种溴化受体的长时间成核策略在五种不同的有机太阳能电池中实现超过20%的效率上限
Chuanlin Gao,Yufei Wang,Han Tian et al.
Chuanlin Gao et al.
Despite efficient charge transfer and molecular stacking in BTP-core acceptors, overly rapid nucleation often causes growth of unfavorable donor/acceptor (D/A) fibrillar networks and metastable morphologies, limiting device efficiency and s...
Tuning the Surface State and Zeta Potential of Aged CuO Nanoparticles by Additive-Free Surface Treatments as Guided by XPS [0.03%]
基于X射线光电子能谱指导的无添加表面改性技术调控陈化CuO纳米粒子的表面态及ζ电位
Anastasia S Batenkova,Bastian Rheingans,Claudia Cancellieri et al.
Anastasia S Batenkova et al.
Broad application of nanoparticles, for e.g., catalysis, antimicrobial coatings, medicine, electronics, batteries, and nanojoining technologies, is hindered by their limited shelf-life due to ambient aging. This study traces the changes in ...