Dual Defect-Engineered BiVO4 Nanosheets for Efficient Peroxymonosulfate Activation [0.03%]
双缺陷工程BiVO4纳米片用于高效活化过一硫酸盐
Jiabao Wu,Meiyu Xu,Zhenzi Li et al.
Jiabao Wu et al.
Defects and heteroatom doping are two refined microstructural factors that significantly affect the performance of photocatalytic materials. Coupling defect and doping engineering is a powerful approach for designing efficient photocatalyst...
Harnessing Magnetic Properties for Precision Thermal Control of Vortex Domain Walls in Constricted Nanowires [0.03%]
利用磁性属性精确控制受限纳米线中涡旋域壁的热效应
Mohammed Al Bahri,Salim Al-Kamiyani
Mohammed Al Bahri
This study investigates the thermal pinning and depinning behaviors of vortex domain walls (VWs) in constricted magnetic nanowires, focusing on the influence of intrinsic magnetic properties on VW stability under thermal stress. Using micro...
Nano Cobalt-Loaded Porous Carbon Derived from Waste Plastic for Efficient Persulfate Activation and Tetracycline Degradation [0.03%]
来自废弃塑料的负载纳米钴的多孔碳用于高效活化过硫酸盐及四环素降解
Yueyue Luo,Xiuxiu Zhang,Yu Zhang et al.
Yueyue Luo et al.
The excessive utilization and emission of waste plastics have caused serious damage to the environment, and it is of great significance to explore high-value utilization methods for these waste plastics. To address this challenge, functiona...
Quantitative Criteria for Solvent Selection in Liquid-Phase Exfoliation: Balancing Exfoliation and Stabilization Efficiency [0.03%]
液相剥离中溶剂选择的定量标准:平衡剥离和稳定效率
Shunnian Wu,W P Cathie Lee,Hashan N Thenuwara et al.
Shunnian Wu et al.
The selection of solvent is pivotal in liquid-phase exfoliation (LPE), as an ideal solvent minimizes the energy required to disrupt the interlayer attractive interactions while stabilizing exfoliated layers to prevent re-agglomeration. This...
Progress in the Development of Flexible Devices Utilizing Protein Nanomaterials [0.03%]
利用蛋白质纳米材料的柔性器件的发展进展
Chunhong Zhang,Chenxi Zhang,Yongchun Liu
Chunhong Zhang
Flexible devices are soft, lightweight, and portable, making them suitable for large-area applications. These features significantly expand the scope of electronic devices and demonstrate their unique value in various fields, including smar...
Harnessing Stevia rebaudiana for Zinc Oxide Nanoparticle Green Synthesis: A Sustainable Solution to Combat Multidrug-Resistant Bacterial Pathogens [0.03%]
利用Stevia rebaudiana合成氧化锌纳米颗粒:对抗多重耐药细菌病原体的可持续解决方案
Mohamed Tharwat Elabbasy,Rasha M El Bayomi,Esraa A Abdelkarim et al.
Mohamed Tharwat Elabbasy et al.
The rise of multidrug-resistant (MDR) bacteria in food products poses a significant threat to public health, necessitating innovative and sustainable antimicrobial solutions. This study investigates the green synthesis of zinc oxide nanopar...
Integration of Conductive SnO2 in Binary Organic Solar Cells with Fine-Tuned Nanostructured D18:L8-BO with Low Energy Loss for Efficient and Stable Structure by Optoelectronic Simulation [0.03%]
通过光电模拟实现高效稳定的结构,将导电氧化锡整合进二元有机太阳能电池中,与低能量损失的精细调节纳米结构D18:L8-BO相结合
Mohamed El Amine Boudia,Cunlu Zhao
Mohamed El Amine Boudia
Enhancing the performance of organic solar cells (OSCs) is essential for achieving sustainability in energy production. This study presents an innovative strategy that involves fine-tuning the thickness of the bulk heterojunction (BHJ) phot...
Controllable Preparation of Low-Cost Coal Gangue-Based SAPO-5 Molecular Sieve and Its Adsorption Performance for Heavy Metal Ions [0.03%]
低成本以煤矸石为基础的SAPO-5分子筛的可控合成及其对重金属离子的吸附性能研究
Le Kang,Boyang Xu,Pengfei Li et al.
Le Kang et al.
With the advancement of industrial production and urban modernization, pollution from heavy metal ions and the accumulation of solid waste have become critical global environmental challenges. Establishing an effective recycling system for ...
Low-Crystallized Carbon as an Electron Mediator in g-C3N4/C/TiO2 for Enhancing Photocatalytic Degradation of Antibiotics [0.03%]
低结晶碳作为g-C3N4/C/TiO2中的电子介体用于增强抗生素的光催化降解效果
Yijie Shen,Zhe Liu,Renke Bi et al.
Yijie Shen et al.
Photodegradation of antibiotics based on photocatalytic semiconductors is a promising option to alleviate water pollution. Despite its limitations, TiO2-based photocatalysts are still the most widely studied materials for pollutant degradat...
Oxygen Vacancies on Hydrated Anatase (101) Surfaces: Insights from Classical and Ab Initio Molecular Dynamics Simulations [0.03%]
水合锐钛矿(101)表面的氧空位:来自经典和从头算分子动力学模拟的分析
Fredrik Grote,Alexander Lyubartsev
Fredrik Grote
Hydrated anatase (101) titanium dioxide surfaces with oxygen vacancies have been studied using a combination of classical and ab initio molecular dynamics simulations. The reactivity of surface oxygen vacancies was investigated using ab ini...