Browsing by Author "Chinmay Mittal"

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Chemistry of Carbon-Based Nanomaterials and Their Composites in Food Packaging and Preservation
(CRC Press, 2025) Chinmay Mittal; Anirudh Singh Bhathiwal; Vishaka Chauhan; Anjaneyulu Bendi
[No abstract available]
From Lab to Life: The Journey of Imidazoles Through Advanced Synthesis and Vital Biological Applications (Comprehensive Review)
(John Wiley and Sons Inc, 2025) B. Anjaneyulu; Chanchal Vashisth; Poonam Devi; Anirudh Singh Bhathiwal; Rashmi Pundeer; Chinmay Mittal; N. Raghav; Mozhgan Afshari
The heterocyclic compound family is the most prevalent category of organic compounds and plays indispensable roles in our daily lives. Imidazoles are a significant class of heterocycles that garnered significant attraction because of their wide range of biological activities and therapeutic potential. They are a component of numerous important biomolecules including the imidazole alkaloids, biotin, and the vital amino acid histidine and its related compounds. These compounds have demonstrated efficacy in treating conditions ranging from hypertension and neuropathic pain to infectious diseases and cancer. The imidazole scaffold serves as a key building block in drug design and discovery. These compounds can be synthesized using various techniques and their diverse structural reactions provide a wealth of opportunities in medicinal chemistry. The purpose of this study is to examine the chemistry of imidazole derivatives and their importance in medicinal chemistry during the last decade. © 2025 Wiley-VCH GmbH.
Toward Sustainable Chemistry: A Survey of Green Synthesis Methods for Pyridine Derivatives (A Review)
(John Wiley and Sons Inc, 2025) B. Anjaneyulu; Vishaka Chauhan; Anirudh Singh Bhathiwal; Chinmay Mittal; Mozhgan Afshari
Pyridine is one of the significant six-membered N-heterocycles that has gained the attention of the scientific community because it is an integral part of various medicinally important natural products. There is a sizable and expanding market for pyridine derivatives due to their many pharmaceutical, medicinal, and agricultural uses. Numerous chemicals are being tested in clinical studies, in which pyridine analogs have occupied the top position. Pyridine scaffolds are also becoming more and more prominent for the use of modern medicine and are anticipated to have several uses in daily life. In this connection, various techniques have been developed to create novel pyridine derivatives, such as multicomponent one-pot reactions, green catalysts, environmentally friendly solvents, solvent-free synthesizing, ultrasonic production, and microwave-assisted synthesis. This study unifies the synthesis of various pyridine-based molecular frameworks using green protocols and the results will support new ideas for creating biologically active compounds. © 2025 Wiley-VHCA AG, Zurich, Switzerland.