This book presents a complete picture of the current state-of-the-art in alternative and green solvents used for laboratory and industrial natural product extraction in terms of the latest innovations, original methods and safe products. It provides the necessary theoretical background and details on extraction, techniques, mechanisms, protocols, industrial applications, safety precautions and environmental impacts. This book is aimed at professionals from industry, academicians engaged in extraction engineering or natural product chemistry research, and graduate level students. The individual chapters complement one another, were written by respected international researchers and recognized professionals from the industry, and address the latest efforts in the field. It is also the first sourcebook to focus on the rapid developments in this field.
İçerik tablosu
In Silico Search for Alternative Green Solvents.- Solvent Free Extraction: Myth or Reality ?.- Supercritical fluid extraction: a global perspective of the fundamental concepts of this eco-friendly extraction technique.- Subcritical Water as a Green Solvent for Plant Extraction.- Liquefied dimethyl ether: an energy-saving, green extraction solvent.- Ethyl lactate : main properties, production processes and applications.- Ionic liquids as alternative solvents for extraction of natural products.- Enzymatic Aqueous extraction (E.A.E).- Terpenes as Green Solvents for Natural Products Extraction.- Emulsion extraction of bio-products: influence of bio-diluents on extraction of gallic acid.- Gluconic acid as a new green solvent for recovery of polysaccharides by clean technologies.- 2-Methyltetrahydrofuran : main properties, production processes, and application in extraction of natural products.- Innovative Technologies Used at Pilot Plant and Industrial Scales in Water-extraction Processes.
Yazar hakkında
Farid Chemat is a full Professor of Chemistry at Avignon University (France), Director of GREEN Extraction Team (alternative extraction techniques and solvents), co-director of ORTESA Lab Com research unit Naturex-UAPV, and scientific coordinator of “France Eco-Extraction” dealing with dissemination of research and education on green extraction technologies. Born in 1968, he received his Ph D (1994) in process engineering from the Institut National Polytechnique de Toulouse-France. Following postdoctoral research work with Prolabo-Merck (1995-1997), he spent two years (1997-1999) as senior researcher at the University of Wageningen (The Netherlands). In 1999, he moved to the University of La Réunion (France DOM) to work as an assistant professor and since 2006 he holds the position of Professor at the University of Avignon (France). His main research interests are focused on innovative and sustainable extraction techniques, protocols and solvents (especially microwave, ultrasound and bio-based solvents) for food, pharmaceutical, fine chemistry, biofuel, and cosmetic applications. His research activities are documented in more than 140 scientific peer-reviewed papers, 9 books and 7 patents.
Maryline Abert Vian, born in 1974, received her Ph D (2000) in Organic Chemistry at the University of Avignon. She spent four years (2000-2004) as junior researcher with industrial companies. In 2005, she moved to the University of Avignon (France) to start her independent academic career. She obtained her ‘Habilitation à Diriger les Recherches’ in 2011 in food and natural products chemistry and since she managed several French programs in the field of research and industrial application of alternative solvents applied for extraction of valuable compounds and biofuels from microorganisms (microalgae, yeast…) with several industrial partners such as Airbus or GDF-Suez. Her research activity is documented by more than 25 scientific peer-reviewedpapers, and about 30 communications for scientific meetings, 9 book chapters and 2 patents. Her research primarily focuses on the solvent extraction and analysis of natural products and has paved the way for new extraction techniques with bio-based solvents.