Functionalized Biochar Catalysts: Advancing Green Chemistry in Synthesis of O- and N-Heterocycles [0.03%]
功能化的生物炭催化剂:在O-和N-杂环合成中推进绿色化学
Nida Khan,Ashna Gupta,Shakir Ahamad et al.
Nida Khan et al.
The global shift toward sustainable chemistry has catalyzed the development of biochar as a versatile and eco-friendly catalyst in organic synthesis. Biochar, derived from biomass pyrolysis, offers tunable surface functionalities, high stab...
Nanotechnology in oncology: advances in biosynthesis, drug delivery, and theranostics [0.03%]
纳米技术在肿瘤学中的应用:生物合成、药物输送及诊疗一体化的进展
Mohamed M Ammar,Rania Ali,Naira Ali Abd Elaziz et al.
Mohamed M Ammar et al.
These eco-friendly nanocomposites enhance therapeutic efficacy, minimize environmental impact, and align with green chemistry principles.
Electrostatic-induced jammed films lock displacement fronts in porous media [0.03%]
静电诱导的 jams 薄膜锁定多孔介质中的位移前沿
Peng Wei,Zeyong Dong,Hui Sun
Peng Wei
Furthermore, this study introduces a CO₂/N₂-responsive design strategy for the CQDs, enabling reversible recycling in alignment with green chemistry principles and cost-efficient processes.
Recent advances in transition metal-catalyzed alkyne annulations: applications in organic synthesis [0.03%]
过渡金属催化炔烃环化反应的研究进展及其在有机合成中的应用
Kommu Nagesh,N Sivasenkar Reddy,Shaik Kareem et al.
Kommu Nagesh et al.
Incorporating green chemistry principles has further increased the sustainability of these protocols. This review highlights key mechanistic insights, synthetic applications, and future directions in the evolving field of transition metal-catalyzed alkyne annulations.
Cost-effectiveness of regenerated green materials for removal of pharmaceuticals from wastewater [0.03%]
去除废水中的药物制剂的再生型绿色材料的成本效益分析
Despina A Gkika,Athanasia K Tolkou,Stavros G Poulopoulos et al.
Despina A Gkika et al.
Utilizing waste-derived adsorbents in water purification provides dual benefits environmental and economic by diverting waste from landfills and promoting its valorization, aligning with green chemistry principles.
Modified plant leaves/chitosan composite: adsorption modeling of crystal violet dye using Box-Behnken design [0.03%]
改性植物叶/壳聚糖复合材料对结晶紫染料吸附行为的Box-Behnken设计模型研究
Ahmed Saud Abdulhameed,Rima Heider Al Omari,Samaa Abdullah et al.
Ahmed Saud Abdulhameed et al.
This innovative approach supports green chemistry and sustainable development, while promoting the circular economy concept.
Microbial synergy between Rhodospirillum rubrum and Acetobacterium woodii enables anaerobic CO conversion to polyhydroxyalkanoates [0.03%]
Rhodospirillum rubrum 和 Acetobacterium woodii 之间的微生物协同作用可实现厌氧二氧化碳转换为聚羟基烷酸酯
Timon M Torres Ruano,Martijn Diender,Diana Z Sousa
Timon M Torres Ruano
The high cost of traditional substrates has hindered the large-scale adoption of polyhydroxyalkanoates (PHAs) as sustainable alternatives to petrochemical plastics. One-carbon (C1) substrates like carbon monoxide (CO) offer a low-cost, sust...
Amine-AlH3 Adducts as Energetic Materials for a New Generation of Solid Fuels [0.03%]
用于新一代固体推进剂的胺-铝氢化合物燃速成型材料
Xiaoran Liu,Jochen Ortmeyer,Alexander Bodach et al.
Xiaoran Liu et al.
Finally, the successful mechanochemical syntheses of Quin2AlH3 and [HMTA‑AlH3]n is introduced, showcasing a green chemistry approach to high energy materials.
TLC plate micro-extractor versus TLC-MS Interface: A comparative study on the extraction of non-steroidal anti-inflammatory drugs from milk as a model of a complex matrix [0.03%]
高效液相色谱板微型萃取法与高效液相-质谱接口直接进样法比较研究:以牛奶中非甾体抗炎药为模型的复杂基质样品提取分析
Rafał Gajos,Anna Klimek-Turek,Kamila Trawińska et al.
Rafał Gajos et al.
It aligns with green chemistry principles by requiring minimal solvent consumption and operates without electricity or a gas supply, making it suitable for use outside a standard laboratory setting.
Mechanistic analysis of diverse click reactions along with their applications [0.03%]
各类点击反应的机理分析及其应用研究
Sushmita Bhatia,Avadh Biharee,Souren Mondal et al.
Sushmita Bhatia et al.
Click chemistry shakes hands with green chemistry and enables chemists to dive deeper into newer chemical transformations with minimal harm caused to the environment. The present review describes the principles of click chemistry, its origin and innovations.
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