Fourier transform infrared spectroscopic technique for analysis of inorganic materials: a review [0.03%]
用于无机材料分析的傅里叶变换红外光谱技术综述
Kazi Al-Amin,Md Kawsar,Md Tariqur Rahaman Bhuiyan Mamun et al.
Kazi Al-Amin et al.
FTIR is a very important analytical technique that is widely used for the detection and analysis of inorganic materials. It has a wide range of applications, from chemical composition analysis, structure identification, and phase identifica...
Self-organization of photonic structures in colloidal crystals in the AI era [0.03%]
人工智能时代胶体晶体中光子结构的自组织现象研究
Neha Yadav,Mingming Liu,Yongling Wu et al.
Neha Yadav et al.
The advent of smart-engineered photonic materials, a development primarily influenced by the cutting-edge technology of artificial intelligence (AI), has ushered in a new era of unprecedented control over the manipulation and propagation of...
The emerging role of semiconductor nano-photocatalysts in strengthening surface enhanced Raman scattering applicability for sustainable multifunctional applications [0.03%]
半导体纳米光催化剂在增强表面增强拉曼散射可持续多功能应用性中的新兴作用研究进展
Samriti,Sahil Thakur,Rupam Sharma et al.
Samriti et al.
Surface-enhanced Raman scattering (SERS) has emerged as a powerful analytical technique for the ultrasensitive detection of organic, inorganic, and biological molecules, with promising applications in environmental monitoring, biomedical di...
Advances in the chemical analysis of nitrite in environmental and biological samples [0.03%]
环境和生物样品中亚硝酸盐化学分析法的研究进展
Nadeen Rajab,Hosny Ibrahim,Daohong Zhang et al.
Nadeen Rajab et al.
Nitrite, a potential environmental pollutant, poses a significant threat to human health. Thus, accurate and sensitive detection methods are essential for effective continuous monitoring and surveillance. In this regard, a wide range of ins...
Exsolution of Fe-based pyramidal nanostructures from a noble metal doped perovskite matrix [0.03%]
掺贵金属钙钛矿基体中铁基金字塔纳米结构的析出
Deblina Majumder,Shailza Saini,William S J Skinner et al.
Deblina Majumder et al.
Homogeneous pyramidal oxide exsolution is demonstrated for the first time leveraging a La0.05Ag0.05Sr0.90FeO3 perovskite. The impressive structures were comprehensively characterised using XRD, SEM, TEM, XPS, and DFT to reveal their structu...
Modulating properties of solid carbon nanospheres via ion implantation with hetero-ions [0.03%]
通过异质离子注入调节固态碳纳米球的性质
Joyce B Matsoso,Kamalakannan Ranganathan,Daniel Wamwangi et al.
Joyce B Matsoso et al.
Solid carbon nanospheres of ∼200 nm diameter have been prepared and then doped by ion implantation, using a specialized end-station adapted for the uniform implantation of powders. Boron, nitrogen and neon ions were chosen, the latter for ...
A stepwise responsive Au-SS-PEG/Sor/ATPaptamer/LHRH-MPGΔNLS drug delivery vector system for overcoming drug resistance in immunotherapy of hepatocellular carcinoma [0.03%]
用于肝细胞癌免疫治疗的逐步响应型Au-SS-PEG/Sor/ATPaptamer/LHRH-MPGΔNLS药物递送载体系统以克服耐药性
Mengting Tong,Guangpeng Chen,Yong Dong et al.
Mengting Tong et al.
Despite the progress made in novel immunotherapy for hepatocellular carcinoma (HCC), drug resistance remains a challenging problem. In this study, we developed a stepwise nanodrug delivery system, known as Au-SS-PEG/Sor/ATPaptamer/LHRH-MPG...
Scalable synthesis and optical tuning of CsPbBr3 nanocrystal inks for dual-color anti-counterfeiting applications [0.03%]
用于双色防伪应用的CsPbBr3纳米晶墨水的大规模合成及光学调控
Tianming Sun,Yining Zhao,Yujia Fan et al.
Tianming Sun et al.
We present a scalable, ambient-air synthesis of CsPbBr3 perovskite nanocrystal (NC) inks with enhanced optical performance and environmental stability, enabled by post-synthetic surface modification using oleylamine (OAm). Systematic tuning...
Engineering versatile supramolecular structures with tetravalent DNA-traptavidin building blocks [0.03%]
基于四价DNA-生物素结合模块构建多功能超分子结构
Dayoung Gloria Lee,Young-Youb Kim,Hoonil Yang et al.
Dayoung Gloria Lee et al.
Proteins offer great promise for nanoscale biomaterials, but precise assembly is challenging. This study presents DNA-protein hybrid building blocks (DTHBs) using traptavidin and biotinylated DNA for controlled assembly to linear chains, sp...
Synergistic selenium vacancies and bismuth metal centers on Bi2Se3 for enhanced photocatalytic CO2 reduction [0.03%]
硒空位和铋金属中心协同作用促进Bi2Se3光催化二氧化碳还原性能增强
Yanjun Zhu,Qiutong Han,Yong Zhou
Yanjun Zhu
Ultrathin inorganic nanosheets possess a novel electronic structure that enables exceptional performance in the catalytic reduction of carbon dioxide (CO2), representing a promising strategy to mitigate global warming. Bismuth selenide (Bi2...