Caffeine Analysis Through the Lens of Green Chemistry: A Review of Sustainable Techniques and Emerging Trends [0.03%]
绿色化学视角的咖啡因分析:可持续技术与新兴趋势综述
Lingkan Kalita,Suman Kumar Sinha,Bhaskar Deka et al.
Lingkan Kalita et al.
The expanding use of green chemistry principles for caffeine analysis is indicative of a growing need for further exploration and discovery of sustainable practices in the food, beverage, and pharmaceutical industries.
Divergent sustainability profiles of molnupiravir synthesis routes are governed by solvent use and process design [0.03%]
溶剂使用和工艺设计决定了molnupiravir合成路线的可持续性特征
Zhengyun Chen,Justin Z Lian,Haozhou Huang et al.
Zhengyun Chen et al.
These findings highlight the critical role of solvent management, energy sourcing, the use of sustainability assessment at the earliest stages of innovation, and process design in aligning green chemistry with economic viability.
Sustainable Strategies for Carbazole Synthesis: A Green Chemistry Perspective [0.03%]
carbazole合成的可持续策略:绿色化学视角
Drashti Shah,Maitri Patel,Abha Vyas et al.
Drashti Shah et al.
These changes, which incorporate green chemistry concepts, not only increase the sustainability of carbazole synthesis but also expand its therapeutic potential, paving the way for environmentally friendly advances in medicinal chemistry.
Gram-Scale Synthesis of 5-Hydroxymethylfurfural from Fructose Using Cerium Triflate and Choline Chloride at Atmospheric Pressure [0.03%]
密闭体系中果糖催化合成5-羟甲基糠醛的研究
Nor Mas Mira Abd Rahman,Fabrizio Olivito,Thivya Selvam et al.
Nor Mas Mira Abd Rahman et al.
The selective conversion of renewable sugars into 5-hydroxymethylfurfural (HMF) remains a major challenge in green chemistry due to side reactions and product instability. A simple and scalable protocol is reported for the gram-scale production of HMF from D-fructose under atmospheric pressure.
Towards green chemistry from transformation of carbon dioxide and dinitrogen to value-added chemicals and fuels [0.03%]
二氧化碳和氮气转化制备附加值化学品及燃料的绿色化学研究趋势
Shunhan Jia,Kang Zhao,Lijun Han et al.
Shunhan Jia et al.
We begin by discussing the fundamental principles of green chemistry and the advantages of utilizing CO2 and N2 to mitigate greenhouse gas emissions and reduce reliance on fossil resources.
Room-Temperature Rhodium-Silver Cooperative C-H Alkynylation of Indoles in Bio-Based Cyrene: A Green Protocol with Mechanistic Insights from DFT Studies [0.03%]
基于生物基月桂烯的吲哚室温氧化偶联反应:DFT计算洞察机制的绿色合成协议
Rajaram Maayuri,Joseph George Samuel,Vikash Kumar et al.
Rajaram Maayuri et al.
Furthermore, the green chemistry metrics calculations suggested that the developed protocol is highly efficient and eco-friendly.
Inner-wall biochar-coated pipette tip microextraction for rapid and sustainable determination of tyrosine kinase inhibitors in plasma [0.03%]
内壁生物炭包被的移液吸头微萃取技术在血浆中酪氨酸激酶抑制剂快速可持续测定中的应用
Xiaofei Zhang,Mengyuan Lv,Yuyang Wang et al.
Xiaofei Zhang et al.
Furthermore, the method exhibits notable green chemistry characteristics, including minimal solvent usage and environmental sustainability.
Accelerating the discovery and optimization of metal-organic framework materials via machine learning [0.03%]
基于机器学习的金属有机框架材料的发现和优化
Hong Wang,Liang Yang,Deying Leng et al.
Hong Wang et al.
Additionally, this paper is of great significance in promoting communication between academia and industry, guiding experimental scientists to more effectively utilize computational tools for MOF-related research, thereby accelerating the development of new materials, advancing green chemistry and technology
Advancing green chemistry for the sensitive and selective detection of N-nitrosodiethylamine (NDEA) monitoring: the role of nanomaterial-embedded electropolymerized molecularly imprinted polymer-based sensors [0.03%]
用于监测亚硝基二乙胺(NDEA)的敏感和选择性检测的绿色化学研究:纳米材料嵌入式电聚合分子印迹聚合物传感器的作用
Nimisha Jadon,Ahmet Cetinkaya,Sena Piskin et al.
Nimisha Jadon et al.
N-Nitrosodiethylamine (NDEA), a potent carcinogen with an acceptable intake (AI) of 26.5 ng/day, poses a significant health risk, necessitating accurate detection and quantification. Here, we introduce the first-ever molecularly imprinted p...
Green synthesis of Alginate-nZVIs biosorbent spheres for removal of Rhodamine B and Methylene Blue in aqueous media [0.03%]
绿色合成Alginate-nZVIs生物吸附球体以去除水相中的罗丹明B和甲基蓝
Trung-Dung Dang,Quynh Xuan Thi Nguyen,D Nguyen et al.
Trung-Dung Dang et al.
This study proposes the synthesis of zero-valent iron nanoparticles (nZVIs) through a green chemistry approach, which were then encapsulated in calcium alginate (Alg) spheres for application in the treatment of Rhodamine B (RhB) and Methylene Blue (MB).
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