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Extraction of capsaicin from Capsicum chinense (cv Bhut Jolokia) using supercritical fluid technology and degradation kinetics

Vikono Ksh, Vishnu Anand, Virendra Singh Rana, Jigni Mishra, Eldho Varghese, Neelam Upadhyay, and Charanjit Kaur

Division of Food Science and Postharvest Technology, ICAR–Indian Agricultural Research Institute, New Delhi, India

 

E-mail: charanjitkaur6@gmail.com

Received: 2 June 2023  Accepted: 13 July 2023

Abstract:

Capsaicin (CC), the dominant pungent compound in hot chilies, is widely used as a flavoring agent, preservative, and active compound in packaging film and functional foods. Capsicum chinense cv Bhut Jolokia is one of the richest sources of CC, yet scarcely studied. The present investigation aimed to optimize a clean and green method for extracting CC through supercritical fluid extraction (SFE) method. Low-grade, culled, and discarded fruits were used for the extraction, and process was optimized through central composite design of RSM. The optimized extraction condition, 68.31 °C/347.98 bars/102.50 min, resulted in maximum CC content (367.14 ± 1.12 mg/g) and oleoresin yield (7.23 ± 2.15%) in a shorter extraction time (< 2 h). Accelerated thermal stability study suggested first-order degradation kinetics of CC at temperatures from 80 to 140 °C. The activation energy (kJ/mol) of the reaction was 71.86, while temperature quotient (Q10) for 80 to 100 °C, 100 to 120, and 120 to 140 were 0.0548, 0.0574, and 0.1456, respectively. Valorization of Bhut Jolokia for targeting an oleoresin with maximum CC opens a new window for its commercial exploitation in food industry. Furthermore, the study opens avenues for exploration of SFE-based extraction as a clean and sustainable method with reduced carbon footing.

Graphical Abstract

Keywords: Chili oleoresin; Supercritical carbon dioxide extraction; Total phenolic content; Antioxidant activity; Thermogravimetric analysis; First-order kinetics

Full paper is available at www.springerlink.com.

DOI: 10.1007/s11696-023-02974-2

 

Chemical Papers 77 (11) 6747–6761 (2023)

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