Abstract

Dr. Sethuramani A.*, Thillaisathana T., Umayambigai R., Thangam V., Thirupavai B., Febisha Francis F., Ganesh S.

ABSTRACT

Growing awareness of environmental sustainability has driven considerable interest in developing analytical extraction practices that align with green chemistry ideals. Traditional approaches to isolating plant-derived bioactive compounds rely on large volumes of toxic organic solvents, energy-intensive operations, and prolonged processing times, all of which contribute to safety hazards and environmental burden. In response, green extraction methodologies have emerged as viable alternatives that prioritize reduced solvent toxicity, lower energy demands, and maintained or improved extraction performance. This article presents a comprehensive overview of recent advances in green extraction science as applied to phytochemical research, with particular attention to techniques such as ultrasound-assisted extraction, microwave-assisted extraction, and supercritical fluid extraction. In addition, this review discusses the growing importance of greenness assessment tools as quantitative frameworks for evaluating the environmental sustainability of extraction procedures. Metrics that account for solvent consumption, energy usage, waste output, and overall process efficiency are systematically examined. The synergistic application of green extraction approaches alongside computerized greenness evaluation platforms provides a unified, evidence-based strategy for selecting the most environmentally responsible extraction methods. Collectively, these developments support the broader transition toward greener and more efficient research practices in phytochemistry and related scientific disciplines.