Nusrat Sahiba scite author profile

In past decades, interdisciplinary research has been of great interest for scholars. Thiazolidine motifs behave as a bridge between organic synthesis and medicinal chemistry and compel researchers to explore new drug candidates. Thiazolidine motifs are very intriguing heterocyclic five-membered moieties present in diverse natural and bioactive compounds having sulfur at the first position and nitrogen at the third position. The presence of sulfur enhances their pharmacological properties, and, therefore, they are used as vehicles in the synthesis of valuable organic combinations. They show varied biological properties viz. anticancer, anticonvulsant, antimicrobial, anti-inflammatory, neuroprotective, antioxidant activity and so on. This diversity in the biological response makes it a highly prized moiety. Based on literature studies, various synthetic approaches like multicomponent reaction, click reaction, nano-catalysis and green chemistry have been employed to improve their selectivity, purity, product yield and pharmacokinetic activity. In this review article, we have summarized systematic approaches for the synthesis of thiazolidine and its derivatives, along with their pharmacological activity, including advantages of green synthesis, atom economy, cleaner reaction profile and catalyst recovery which will help scientists to probe and stimulate the study of these scaffolds.

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Polyethylene glycol: A promising approach for sustainable organic synthesis

Soni¹,

Sahiba²,

Sethiya³

et al. 2020

Journal of Molecular Liquids

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Recent Advances in the Synthesis of Perimidines and their Applications

Sahiba¹,

Agarwal²

2020

Top Curr Chem (Z)

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Perimidines are versatile scaffolds and a fascinating class of N-heterocycles that have evolved significantly in recent years due to their immense applications in life sciences, medical sciences, and industrial chemistry. Their ability of molecular interaction with different proteins, complex formation with metals, and distinct behavior in various ranges of light makes them more appealing and challenging for future scientists. Various novel technologies have been developed for the selective synthesis of perimidines and their conjugated derivatives. These methods extend to the preparation of different bioactive and industrially applicable molecules. This review aims to present the most recent advancements in perimidine synthesis under varied conditions like MW radiation, ultrasound, and grinding using different catalysts such as ionic liquids, acid, metal, and nanocatalyst and also under green environments like catalyst and solvent-free synthesis. The applications of perimidine derivatives in drug discovery, polymer chemistry, photo sensors, dye industries, and catalytic activity in organic synthesis are discussed in this survey. This article is expected to be a systematic, authoritative, and critical review on the chemistry of perimidines that compiles most of the state-of-art innovation in this area.

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Contemporary Progress in the Synthetic Strategies of Imidazole and its Biological Activities

Soni¹,

Sethiya²,

Sahiba³

et al. 2020

COS

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: Heterocyclic compounds are pervasive in many areas of life and one of the heterocycles, imidazole is a unique heterocyclic five-membered aromatic compound having two sp2 hybridized nitrogen atoms. Its integral name is 1, 3 diazole and previously, it was known as glyoxalin. This moiety has achieved a considerable place among scientists in recent years by reason of its divergent synthetic strategies and uncommon biological and pharmacological activities, for example, anti-convulsant, anti-microbial, anti-cancer, anti-inflammatory, anti-tumor, anti-viral, anti-ulcer, analgesic, etc. Due to distinct therapeutic actions, it is still an engrossed area of research. Researchers currently are inventing new greener methods to synthesize its derivatives and to improve its pharmacological activities. The purpose of this review is to study the literature that can help researchers to explore this area, its prevailing program for synthesis in environmentally friendly conditions and biological profile throughout past decades.

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An overview of recent advances in the catalytic synthesis of substituted pyrans

Agarwal¹,

Sethiya²,

Soni³

et al. 2022

Applied Organom Chemis

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Substituted pyrans (4H‐Chromenes) are the most significant structural scaffolds in synthetic and medicinal chemistry. They are found in an array of natural products, medicines, and phytochemical compounds, bearing an explicit of pharmacological activities. The structural importance of substituted pyrans has elicited a huge upsurge in the field of synthesis and biology. Different synthetic approaches of 4H‐chromene scaffolds have been discussed systematically to emphasize their significance in the scientific world. The present article summarizes the different synthetic strategies of substituted pyran derivatives via acid‐base catalysis, ionic liquids, nanomaterials, deep eutectic solvents, bio‐based, visible light, metal catalyzed, and so forth developed in the last decade. Moreover, this article will definitely contribute to the scientific world for developing synthetically and biologically important pyran analogs.

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Nusrat Sahiba

Saturated Five-Membered Thiazolidines and Their Derivatives: From Synthesis to Biological Applications

Polyethylene glycol: A promising approach for sustainable organic synthesis

Recent Advances in the Synthesis of Perimidines and their Applications

Contemporary Progress in the Synthetic Strategies of Imidazole and its Biological Activities

An overview of recent advances in the catalytic synthesis of substituted pyrans

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