This book focuses on lignin biorefinery, with special emphasis on lignin extraction, its chemical structure, depolymerization and degradation techniques, and its applications in the production of green industrial products. It provides an overview of lignin chemistry and biorefinery processes.
This book focuses on lignin biorefinery, with special emphasis on lignin extraction, its chemical structure, depolymerization and degradation techniques, and its applications in the production of green industrial products. It provides an overview of lignin chemistry and biorefinery processes, as well as the potential of lignin in the synthesis of industrial chemicals. The book covers pretreatment methods for lignocellulosic biomass using various extraction techniques and includes the chemical analysis of lignin structures obtained from different methods. It also explains the catalytic valorisation of lignin and its biological degradation processes.
- Coverage of the latest lignin extraction and valorisation technologies
- Updated information on pretreatment technologies for lignin synthesis from biomass
- Insights into the conversion of depolymerized lignin into biopolymers, resins, and other high-value products
- Exploration of lignin-based modern medicines and smart nano-biomaterials
- Discussion of the environmental and market impacts of lignin-based biorefinery
This book is intended for researchers and graduate students in chemical engineering, lignin chemistry, and bioresource engineering.
1.Introduction To Lignin And Its Potential
2. Strategies for Lignin
Extraction from Lignocellulosic Biomass
3. Lignin Structure And Analytics
4.
Depolymerization of Lingin and Conversion into BioPolymers Resins
5.
Catalytic Valorization of Lignin
6. Biological Degradation Of Lignin
7.
Lignin To Renewable Hydrocarbons And Biofuels
8. Lignin Based High Value
Biochemicals For Sustainable Industries
9. Lignin Based Antimicrobials And
Therapeutic Commodities
10. Smart Nanobiomaterials From Lignin for Packaging
and Cosmetics
11. Environmental And Economic Considerations Of Lignin
Valorization
12. Challenges And Future Perspective Of Lignin Biorefinery
Dolly Kumari is an Assistant Professor of Chemistry in Faculty of Chemical Sciences, Institute of Natural Sciences and Humanities, Shri Ramswaroop Memorial University, Lucknow-Deva Road, Barabanki, U.P., India since 2022. She earned her Ph.D. in Chemistry from Dayalbagh Educational Institute, Dayalbagh, Agra, India. With a strong background in Chemistry, her research spans Renewable Energy Generation, Pretreatment of Lignocellulosic Biomass, Agricultural Waste Management, Liquid and Gaseous Biofuel production, Bioremediation and Wastewater Treatment. Dr. Kumaris primary focus is on understanding pretreatment of lignocellulosic biomass using harmless chemicals or substances for biofuel production, reflected in over 20 publications in esteemed national and international journals having a cumulative impact factor of 59.5 with more than 1100 citations and filed one patent on pretreatment method. She has also started work on green nanomaterial synthesis for catalytic applications. She has supervised the projects of postgraduate students. She also plays vital roles in academic and non-academic activities at Shri Ramswaroop Memorial University.
Ravi Kant Bhatia is a distinguished Indian scientist and academician renowned for his significant contributions to environmental biotechnology, bioenergy, and microbial enzyme technology. He currently serves as an Assistant Professor in the Department of Biotechnology at Himachal Pradesh University (HPU), Shimla. Dr. Bhatia has established himself as a leading figure in sustainable bioresource management and microbial innovation. He possesses extensive experience in both academia and industry and is actively engaged in teaching and cutting-edge research. In recognition of his scientific contributions, he has been listed among the Worlds Top 2% Scientists in 2025 in the field of Biotechnology. Dr. Bhatia has qualified prestigious national examinations including UGC-NET, ICAR-NET, and GATE, and was awarded the UGC Postdoctoral Fellowship (UGC-PDF) to pursue his postdoctoral research. He has also received the SERB International Travel Support (ITS) fellowship to present his research findings at an international conference in Scotland. He has authored over 100+ research publications with a cumulative impact factor exceeding 200 and has received more than 5,200+ citations. His research interests include microbial enzyme technology, biofuels, nano-biotechnology, environmental microbiology, and waste valorization. Dr. Bhatia has successfully led and contributed to several research projects funded by national agencies, securing grants worth approximately 15 crore. He has completed 6 projects as Co-Principal Investigator and 4 as Principal Investigator. He has also represented India at various international conferences. His collaborations extend globally, working with renowned scientists and institutions worldwide. In addition, he serves as a reviewer for several prestigious national and international journals and has edited more than 10 books with reputed publishers. Beyond research, Dr. Bhatia is deeply committed to mentoring students and promoting innovation through incubation and entrepreneurial initiatives. His interdisciplinary approach, integrating fundamental research with practical applications, continues to drive advancements in environmental biotechnology and sustainable development. Dr. Ravi Kant Bhatias dedication and impactful contributions have significantly advanced the field and continue to inspire the next generation of scientists in India and beyond.
