Layer-Thickness-Dependent Strengthening-Toughening Mechanisms in Crystalline/Amorphous Nanolaminates [0.03%]
晶态/非晶态纳米层状材料的增韧机理研究
Xiaoling Zhou,Changqing Chen,Xiaoyan Li
Xiaoling Zhou
Crystalline/amorphous (C/A) nanolaminates offer a promising route to overcome intrinsic brittleness of bulk metallic glasses by combining high strength with enhanced plasticity. The mechanical performance of these materials is strongly gove...
Correction to "An Antibacterial and Antiadhesion In Situ Forming Hydrogel with Sol-Spray System for Noncompressible Hemostasis" [0.03%]
关于“一种抗菌和防粘附的溶液喷射型止血水凝胶”的更正通知
Xiudan Wang,Xin Zhang,Xinran Yang et al.
Xiudan Wang et al.
Published Erratum
ACS applied materials & interfaces. 2025 Aug 6. DOI:10.1021/acsami.5c14507 2025
Defect Passivation via a Bidentate Anchoring Molecule Enables Efficient and Stable Perovskite Solar Cells [0.03%]
一种双齿锚定分子实现高效的钙钛矿太阳能电池及缺陷钝化功能
Zhuo Dong,Yinghui Lan,Shasha Wang et al.
Zhuo Dong et al.
The cation and anion defects at the perovskite interfaces, such as undercoordinated Pb2+ and undercoordinated I-, severely limit the long-term stability and efficiency potential of the devices. The dual-functional passivation group -NH2 in ...
In Situ Reduction in Carbon Disorder during Electrochemical Cycling of Silicon-Carbon Composite Electrodes [0.03%]
硅碳复合电极在电化学循环中碳无序的原位减少现象研究
Peshal Karki,Morteza Sabet,Mihir Parekh et al.
Peshal Karki et al.
In lithium-ion batteries (LIBs) with silicon (Si) electrodes, Si's enormous volume change (>300%) causes pulverization and rapid capacity deterioration. Strategies such as embedding Si into carbon matrices with optimized porosity and conduc...
Nonmetallic Phosphorus-Driven Oxygen Vacancy and Electronic Structure Modulation Enhancing Bifunctional Catalytic Activity of Cobalt-Based Spinel Air Electrode for Rechargeable Zn-Air Batteries [0.03%]
非金属磷调控氧空位和电子结构的双功能催化剂用于可充电锌空气电池中的基于钴的尖晶石正极材料研究
Jiaxing Yan,Xiankai Yi,Wei Zhao et al.
Jiaxing Yan et al.
Zinc-air batteries (ZABs) have great promise for sustainable energy storage. However, the energy conversion efficiency is limited by the lack of cost-effective bifunctional catalysts for the oxygen reduction reaction (ORR) and oxygen evolut...
Polydopamine-Assisted Zn2TiO4-ZnO Heterostructure Formation on Titanium with Decent Osteogenic and Antibacterial Activity [0.03%]
聚多巴胺辅助制备具有良好的成骨和抗菌活性的钛基Zn2TiO4-ZnO异质结构
Ihsan Ullah,Saadullah Khattak,Linjie Chen et al.
Ihsan Ullah et al.
Implant-associated infections and inadequate osseointegration are major contributors to orthopedic implant failures. Although hydrothermally grown zinc oxide (ZnO) nanorods on titanium (Ti) implants enhance antibacterial activity, their agg...
Defect-Mediated Phase Transitions and Structural Dynamics in Single-Layer VSe2 [0.03%]
单层二硒化钒中的缺陷介导相变及结构动力学
Jinbang Hu,Chaoqin Huang,Lina Liu et al.
Jinbang Hu et al.
Atomic-scale elucidation of phase transition pathways in two-dimensional (2D) materials is practically necessary for achieving desired architectures in next-generation devices, yet it remains hindered by insufficient understanding of defect...
Enhancement of IGZO TFT Performance via Metal-Induced Crystallization: A Pathway to High-Performance Next-Generation Displays [0.03%]
金属诱导结晶增强IGZO TFT性能:通向高性能下一代显示器的道路
Seongkyu Kang,Byoungwoo Kim,Gwang-Bok Kim et al.
Seongkyu Kang et al.
This study demonstrates that IGZO compositions with low-indium (In) content can undergo effective crystallization via a low-temperature route. The IGZO films were initially thermally annealed at 400 °C to enhance structural quality, follow...
Aminated Graphite-Reinforced MnO Anode Interfacial Interaction via Mn-N-C Bonds for Enhanced Lithium-Ion Storage Performance [0.03%]
通过Mn-N-C键增强石墨烯强化的MnO锂离子存储性能的复合阳极界面相互作用研究
Yankun Sun,Zechen Li,Qiang Ye et al.
Yankun Sun et al.
Constructing strong interfacial interactions between the carbon coating layer and the MnO anode is highly desirable for enhancing its structural stability and electronic conductivity. Herein, an aminated graphite/MnO composite (MnO@300NG) w...
Electrostatic Shielding Suppresses Nanoparticle Deposition and Enhances Plasma-Activated Biofunctional Coatings for Cell Culture Well Plates [0.03%]
静电屏蔽抑制纳米粒子沉积并增强等离子体活化生物功能涂层用于细胞培养板
Xuege Feng,Jameel Sardharwalla,Stuart T Fraser et al.
Xuege Feng et al.
Plasma-based surface treatments are increasingly used to functionalize cell culture substrates, enabling the covalent immobilization of biomolecules without chemical reagents. However, a hidden risk in such processes is the in situ formatio...