Effect of pH and (Y, Ag) co-doping on the antibacterial and toxicity properties of ZrO2 nanoparticles [0.03%]
pH及(Y,Ag)共掺杂对ZrO₂纳米颗粒的抗菌性和毒性的影响研究
Mehedi Hasan Jasim,Md Iqbal Hossain,Yasfir Mahmud et al.
Mehedi Hasan Jasim et al.
Nowadays, the effective bacterial inhibition and minimal toxicity properties of ZrO2 nanoparticles are creating opportunities in various applications, including biomedical, dental, antimicrobial coatings, packaging, anticancer and pesticide...
Heterocyclic π-linkers for reduced energy dissipation in symmetrical IDT-core-based non-fullerene acceptors: a route to efficient organic solar cells [0.03%]
基于IDT核心的非富勒烯受体中异环π连接基的应用:降低能量损耗,提高有机太阳能电池效率
Hina Naeem,Tahani A Alrebdi,Karrar Hazim Salem et al.
Hina Naeem et al.
Achieving high power conversion efficiency (PCE) remains a major challenge in advancing organic solar cells (OSCs). In the field of organic photovoltaics (OPVs), substantial progress has been made in tuning molecular structures to enhance t...
Synergistic effect of Mo doping on the pseudocapacitive performance of Zn-V-O based TMOs for supercapacitor applications [0.03%]
Mo掺杂对Zn-V-O基TMOs赝电容性能的协同效应用于超级电容器应用
Pankaj Kumar Sharma,Anshuman Sahai,Deepti Maikhuri et al.
Pankaj Kumar Sharma et al.
Supercapacitors (SCs) are crucial for meeting the growing demand for energy. The development of next-generation SCs still depends on the evolution of high-performance electrode materials. Compared with single component metal oxides, ternary...
Solution-phase synthesis and characterization of alkaline earth polysulfides as colloidal nanocrystals [0.03%]
溶液相合成及表征碱土多硫化物胶体纳米晶体
Daniel C Hayes,Omair Z Choudhry,Shubhanhsu Agarwal et al.
Daniel C Hayes et al.
Solution-chemistry fabrication of semiconductor materials is an attractive synthesis method that allows for easy post-synthesis use in various applications. In this work, we investigate the solution-phase synthesis of a lesser-studied class...
Morphology-driven electrochemical properties of nickel-hydroxide and performance of asymmetric button-cell hybrid device [0.03%]
镍氢氧化物的形貌对其电化学性能的影响及异质非对称电池器件的性能研究
Xiaolong Leng,Jie Zeng,S V Prabhakar Vattikuti et al.
Xiaolong Leng et al.
Nickel-hydroxides have garnered significant attention for energy storage applications owing to their unique interfacial characteristics and tunable structural properties. Despite this potential, precise morphological control of 3D/2D nanost...
Pumpkin-waste-derived copper quantum dots: green synthesis, underlying mechanism, and multifunctional applications in catalysis, antioxidants, and bioimaging [0.03%]
基于南瓜废弃物的铜量子点:绿色合成、内在机制及在催化、抗氧化和生物成像中的多功能应用
Lamis Dayoub,Xiaoxuan Li,Xuewen Peng et al.
Lamis Dayoub et al.
Agricultural waste poses a significant challenge and opportunity for sustainable nanotechnology. This study presents a novel, eco-friendly, and cost-effective green synthesis of copper quantum dots (CuQDs) utilizing pumpkin waste extract. O...
Green synthesis of V2C MXene quantum dots with tunable nonlinear absorption for optical limiting applications [0.03%]
具有可调非线性吸收的V2C MXene量子点的绿色合成用于光限制应用
Amrutha Shivappanayaka,Hasana Jahan Elamkulavan,Vari Sivaji Reddy et al.
Amrutha Shivappanayaka et al.
Vanadium carbide MXene quantum dots (V2C QDs) have emerged as promising nanoscale materials with tunable surface chemistry and pronounced quantum confinement effects. Herein, we report a green, HF-free synthesis of highly fluorescent V2C QD...
From peels and coffee grounds to tunable carbon nanodots: waste-derived biocarbon meets ultrafast laser ablation [0.03%]
从果皮和咖啡渣到可调碳点:废料衍生生物碳与超快激光刻写技术相遇
Karyme Nava,Kamila González,Víctor Castrejón et al.
Karyme Nava et al.
Water-soluble, photoluminescent carbon nanodots (CNDs) were produced in minutes by picosecond-laser ablation of biocarbons obtained from orange peel, avocado peel, and spent coffee grounds. Mild pyrolysis at 350 °C first transformed the wa...
Interfacial engineering of nano-copper: mechanisms, strategies, and innovations for oxidation resistance [0.03%]
纳米铜界面工程:抗氧化机理、策略及创新
Bo Zhang,Ziyin Zhou,Jing Huang et al.
Bo Zhang et al.
Nano-copper, characterized by its unique physicochemical properties such as high specific surface area, quantum size effects, and exceptional conductivity, has emerged as a pivotal material in advanced technologies. However, its susceptibil...
Self-assembled π-conjugated Cu(ii)-phenanthro[9,10- d]imidazole superstructures for VOC sensing and enhanced supercapacitor performance [0.03%]
自组装π共轭Cu(II)-菲并[9,10-d]咪唑超结构用于挥发性有机化合物传感和超级电容器性能增强
Mallayasamy Siva,Aneesh Anand Nechikott,Sheethal Sasi et al.
Mallayasamy Siva et al.
The development of self-assembled smart materials is a pivotal area of advanced research, particularly for sensing and electronic applications. π-Conjugated small organic molecules can self-assemble into well-ordered superstructures with r...