Innovations in Green Nanoscience and Nanotechnology This book discusses how greener synthetic pathways are amenable and productive for the synthesis of novel nanomaterials. It furthers the integration of advances in green nanoscience and nanotech- nology, including pathways dedicated to the design, development, and fabrication of a range of products and devices. Topics such as green nanotechnology for advanced energy systems, sustain- able delivery systems, medicine, a gri-nanotechnology for sustainable agriculture, nanotechnology in crop protection, and nanotechnology for soil conservation are included. Features • Provides a holistic view of green nanotechnology and its applications • Places an emphasis on synthesis, characterization, and applications of green nanomaterials • Discusses the development of innovative green synthetic pathways to produce novel biomaterials • Includes characterization tools used in the material synthesis via green synthetic pathways • Advocates green nanotechnology solutions for sustainability and energy This book is aimed at researchers and professionals in nanotechnology, green chemistry, and chemi- cal engineering. Emerging Materials and Technologies Series Editor: Boris I. Kharissov The Emerging Materials and Technologies series is devoted to highlighting publications centered on emerging advanced materials and novel technologies. Attention is paid to those newly discov- ered or applied materials with potential to solve pressing societal problems and improve quality of life, corresponding to environmental protection, medicine, communications, energy, transportation, advanced manufacturing, and related areas. The series takes into account that, under present strong demands for energy, material, and cost savings, as well as heavy contamination problems and worldwide pandemic conditions, the area of emerging materials and related scalable technologies is a highly interdisciplinary field, with the need for researchers, professionals, and academics across the spectrum of engineering and techno- logical disciplines. The main objective of this book series is to attract more attention to these mate- rials and technologies and invite conversation among the international R&D community. Emerging Nanomaterials for Catalysis and Sensor Applications Edited by Anitha Varghese and Gurumurthy Hegde Advanced Materials for a Sustainable Environment: Development Strategies and Applications Edited by Naveen Kumar and Peter Ramashadi Makgwane Nanomaterials from Renewable Resources for Emerging Applications Edited by Sandeep S. Ahankari, Amar K. Mohanty, and Manjusri Misra Multifunctional Polymeric Foams: Advancements and Innovative Approaches Edited by Soney C George and Resmi B. P. Nanotechnology Platforms for Antiviral Challenges: Fundamentals, Applications and Advances Edited by Soney C George and Ann Rose Abraham Carbon-Based Conductive Polymer Composites: Processing, Properties, and Applications in Flexible Strain Sensors Dong Xiang Nanocarbons: Preparation, Assessments, and Applications Ashwini P. Alegaonkar and Prashant S. Alegaonkar Emerging Applications of Carbon Nanotubes and Graphene Edited by Bhanu Pratap Singh and Kiran M. Subhedar Micro to Quantum Supercapacitor Devices: Fundamentals and Applications Abha Misra Application of Numerical Methods in Civil Engineering Problems M.S.H. Al-Furjan, M. Rabani Bidgoli, Reza Kolahchi, A. Farrokhian, and M.R. Bayati For more information about this series, please visit: www.routledge.com/Emerging-Materials-and- Technologies/book-series/CRCEMT Innovations in Green Nanoscience and Nanotechnology Synthesis, Characterization, and Applications Edited by Shrikaant Kulkarni First edition published 2023 by CRC Press 6000 Broken Sound Parkway NW, Suite 300, Boca Raton, FL 33487-2742 and by CRC Press 4 Park Square, Milton Park, Abingdon, Oxon, OX14 4RN CRC Press is an imprint of Taylor & Francis Group, LLC © 2023 selection and editorial matter, Shrikaant Kulkarni; individual chapters, the contributors Reasonable efforts have been made to publish reliable data and information, but the author and publisher cannot assume responsibility for the validity of all materials or the consequences of their use. 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For works that are not available on CCC please contact [email protected] Trademark notice: Product or corporate names may be trademarks or registered trademarks and are used only for identification and explanation without intent to infringe. Library of Congress Cataloging-in-Publication Data Names: Kulkarni, Shrikaant, editor. Title: Innovations in green nanoscience and nanotechnology : synthesis, characterization, and applications / edited by Shrikaant Kulkarni. Description: First edition. | Boca Raton : CRC Press, 2023. | Series: Emerging materials and technologies | Includes bibliographical references and index. | Identifiers: LCCN 2022033774 (print) | LCCN 2022033775 (ebook) | ISBN 9781032333281 (hbk) | ISBN 9781032333298 (pbk) | ISBN 9781003319153 (ebk) Subjects: LCSH: Nanotechnology. | Green chemistry. Classification: LCC T174.7 .I488 2023 (print) | LCC T174.7 (ebook) | DDC 620/.5–dc23/eng/20221006 LC record available at https://lccn.loc.gov/2022033774 LC ebook record available at https://lccn.loc.gov/2022033775 ISBN: 978- 1- 032- 33328-1 ( hbk) ISBN: 978- 1- 032- 33329-8 ( pbk) ISBN: 978- 1- 003- 31915-3 ( ebk) DOI: 10.1201/ 9781003319153 Typeset in Times by codeMantra Contents Preface..............................................................................................................................................vii Editor ................................................................................................................................................ix Contributors ......................................................................................................................................xi Section i G reen nanomaterials: Synthesis and characterization Chapter 1 Green Synthesis, Characterization and Applications of Quantum Dots ......................3 Varinder Singh, Heena, and Jatinder Singh Aulakh Chapter 2 Biopolymer-Based Nanomaterials: Synthesis, Characterization, and Applications ....15 Shweta Kashid and Kalpana Joshi Chapter 3 Enhancement of Permeation Rate of Rifabutin Using Encapsulation of L ipid-Based Nanoparticles through Chicken Ileum by Statistical Optimization Approach ..............................................................................................61 Om M. Bagade and Priyanka E. Doke-Bagade Chapter 4 Green Synthesis of Visible Light-Driven g-C N -Based Composites for 3 4 Wastewater Treatment ................................................................................................91 Akash Balakrishnan and Mahendra Chinthala Chapter 5 Plant-Based Antimicrobial Nanofilms .....................................................................105 Kavita Kulkarni, Yogesh Chendake, and Anand Kulkarni Section ii G reen nanomaterials: Applications in Bio-Medicine, Drug Delivery, energy, Sensing and other Chapter 6 Natural Origin Biodegradable Polymer Bandages and Structures Loaded with Nanomedicines for Biomedical Applications ..................................................123 Sonali Dhamal, Yogesh Chendake, and Sachin Chavan Chapter 7 Callus-Derived Bioactive Nanomaterials for Sustainable Drug Delivery ...............133 Neha Saini, Prem Pandey, and Atul Kulkarni v vi Contents Chapter 8 Green and Environment-Friendly Graphene Quantum Dots ( GQDs) with State- of- the-Art Performance for Sustainable Energy Conversion and Storage ......147 Shikha Gulati, Sanjay Kumar, and Suvidha Sehrawat Chapter 9 Green Nanotechnology: Applications in Medicine ..................................................167 Anam Rais, Itika Varshney, Sunil Kumar, Vimal Kumar, and Tulika Prasad Chapter 10 The Era of Green Nanomaterials for Sensing ..........................................................209 Shashwati Wankar, Swapnali Walake, Rutuja Gumathannavar, Nidhi Sapre, and Atul Kulkarni Chapter 11 Agro-Industrial Wastes-Derived Carbon Nanomaterials: Synthesis and Multi-faceted Applications .......................................................................................227 Sakshi Kabra Malpani, Rajesh Kumar Meena, Stuti Katara, and Deepti Goyal Section iii Green nanomaterials: case Studies Chapter 12 Case Studies on Applications of Green Nanotechnology ........................................257 Nidhi Jain and Mona Kejariwal Chapter 13 Case Studies on Multifunctional Green Quantum Dots – From Lab Bench to Commercialization ...................................................................................................273 Sayoni Sarkar and Ajit R. Kulkarni Index ..............................................................................................................................................291 Preface Sustainable development has become a buzz word in the world today. It has driven the inclusive development of the coming generations by means of judiciously using available natural resources among humans and the ecosystems wherein they sustain. Over the years, we have witnessed a sig- nificant loss of ecology due to the overuse of resources bestowed upon us by nature apart from the application of synthetically derived materials on a large scale. This vexed context asks for right and sustainable measures such as the use of eco-friendly materials for the cause of preservation of the sanctity of ecology. Therefore, new vistas have to be opened for the cause of the advancement of novel, green, and sustainable materials in tandem with the applications so as to sustain the ecology and planet earth such that earth remains a planet worth living for generations to come. Indeed, the attainment of sustainable development goals has emerged as a movement at global level that covers the design and adoption of new synthesis routes and modifications of the existing pathways with the help of green and environmentally friendly materials and protocols. These approaches showcase the development of capabilities for the cause of conservation and sustenance of resources for providing better service to the generations of humanity. Adoption, application, and advancement in green and sustainable nanomaterials is one such mea- sure that covers the synthesis and fabrication of nanomaterials, development of process technolo- gies, and optimization of processes, other than testing, studying their functional behavior, stability, reproducibility, durability, etc. Further, future trends in these materials will largely focus on the sustenance in R&D initiatives. This book presents advancements in the synthesis, characterization, and applications of some state- of- the-art nanomaterials prepared by using green and sustainable pathways in a plethora of domains such as agriculture, environmental sustainability, and biomedi- cine. This book will also help nurture future directions in green and sustainable nanoscience and nanotechnology. Sustenance in the novel nanomaterials can be accomplished with the application of new synthe- sis routes or by maneuvering existing materials having unique properties. These materials are used in the making of equipment, instruments, and gadgets with innovative qualities and find place in a range of application areas such as biomedicine, textiles, building, and paper. A host of current nano- materials are known for their novelty and have been produced over the years as bio-nanomaterials, ceramics, polymeric materials, etc. The origin of many of these materials is in nature, such as plants, animals, ores, etc. extracted from plants and obtained in different geometrical morphologies which are amenable to prepare composites from various materials in tune with the specific appli- cations. Many of them are prepared synthetically with given geometries and size for fulfilling the needs of society. The major purpose of this volume is to take a review of the advancements in the design of nanomaterials over the time that are eco-friendly and sustainable. Keeping in view the addition to the current knowledge base by these innovative materials obtained by converting conceptual understanding into reality, and to bring about mass-scale pro- duction of nanomaterials, this book consists of three sections with each one comprising some chap- ters throwing light on one or the other aspect. The first chapter provides an overview of the use of graphene as a thermoelectric nanomaterial for the production and conversion of green energy. The second chapter deals with environmentally benign applications, particularly in devices used for energy harvesting and storage applications. The third chapter dwells upon advances in high volumetric carbon nanotubes in storing electrochemical energy. The fourth chapter encompasses details about nanomaterial-embedded membranes as filtering media for getting rid of heavy metal pollutants. Chapter 5 refers to the use of green nanotechnology for reinventing the phytomedicine concept for using it to advantage. Chapter 6 is an extensive overview of how green nanomaterials are looked upon as boon in the frontier area of biomedical engineering. Chapter 7 is all about trends that are developed in the green synthesis of carbon-based nanostructures. Chapter 8 extensively vii viii Preface discusses the applications of biodegradable polymeric materials in the field of biomedical science and technology. C hapter 9 gives an account of the role of green nanomaterials for bringing in sustainability in agriculture at large. Chapter 10 presents the results obtained in the form of silica nanoparticles derived from agricultural wastes as a renewable source to be used as a novel catalyst support material. Chapter 11 lists the futuristic applications of green and sustainable nanomaterials in the remediation of contaminants in the environment and thereby in cleaning the environment. Overall, this volume can certainly be used as an excellent reference book by academicians, research scholars, practitioners, industrialists, and the scientific community who are interested in the synthesis and applications of advanced, novel, and sustainable nanomaterials. The authors are well-known academicians, material engineers, and researchers. I express my sincere gratitude to the contributors of all the chapters for their timely and overwhelming support in taking this volume to its logical end. Finally, I express my sincere thanks to CRC Press for accepting this book for publication. Editor Shrikaant Kulkarni, PhD, is an Adjunct Professor in the Science and Technology Department at Vishwakarma University, Pune, India. Dr. Kulkarni has been an academician and researcher for 39 years. He has delivered invited lectures and conducted sessions at national and international con- ferences as well as faculty development programs. He was a Professor in the Department of Civil Engineering at Padm. Dr. V. B. Kolte College of Engineering, Malkapur ( M.S.), India. He teaches engineering chemistry, green chemistry, nanotechnology, analytical chemistry, catalysis, chemical engineering materials, industrial organization, and management, to name a few. He has published over 100 research papers in national and international journals and conferences. He has authored 36 book chapters in CRC Press, Springer Nature, AAP Press, Elsevier, Wiley, and IET books. He has edited five books in green engineering and green nanoscience and nanotechnology published by Apple Academic Press/ CRC Press. Another three books are in the offing. He has authored four textbooks and worked as a resource person for many national and international events. Dr. Kulkarni earned MSc, MPhil, and PhD degrees in chemistry in addition to master’s degrees in economics, business management, and political science. He has expertise in the fields of material science, green chemistry and engineering, analytical chemistry, and green nanoscience and nanotechnology. ix