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| future trends in green chemistry: New Trends in Green Chemistry V.K. Ahluwalia, M. Kidwai, 2012-12-06 Organic chemistry has played a vital role in the development of diverse molecules which are used in medicines, agrochemicals and polymers. Most ofthe chemicals are produced on an industrial scale. The industrial houses adopt a synthesis for a particular molecule which should be cost-effective. No attention is paid to avoid the release of harmful chemicals in the atmosphere, land and sea. During the past decade special emphasis has been made towards green synthesis which circumvents the above problems. Prof. V. K. Ahluwalia and Dr. M. Kidwai have made a sincere effort in this direction. This book discusses the basic principles of green chemistry incorporating the use of green reagents, green catalysts, phase transfer catalysis, green synthesis using microwaves, ultrasound and biocatalysis in detail. Special emphasis is given to liquid phase reactions and organic synthesis in the solid phase. I must congratulate both the authors for their pioneering efforts to write this book. Careful selection of various topics in the book will serve the rightful purpose for the chemistry community and the industrial houses at all levels. PROF. JAVED IQBAL, PhD, FNA Distinguished Research Scientist & Head Discovery Research Dr. Reddy's Laboratories Ltd. |
| future trends in green chemistry: Green Chemistry and Engineering Mukesh Doble, Ken Rollins, Anil Kumar, 2010-07-27 Chemical processes provide a diverse array of valuable products and materials used in applications ranging from health care to transportation and food processing. Yet these same chemical processes that provide products and materials essential to modern economies, also generate substantial quantities of wastes and emissions. Green Chemistry is the utilization of a set of principles that reduces or eliminate the use or generation of hazardous substances in design. Due to extravagant costs needed to managing these wastes, tens of billions of dollars a year, there is a need to propose a way to create less waste. Emission and treatment standards continue to become more stringent, which causes these costs to continue to escalate. Green Chemistry and Engineering describes both the science (theory) and engineering (application) principles of Green Chemistry that lead to the generation of less waste. It explores the use of milder manufacturing conditions resulting from the use of smarter organic synthetic techniques and the maintenance of atom efficiency that can temper the effects of chemical processes. By implementing these techniques means less waste, which will save industry millions of dollars over time. - Chemical processes that provide products and materials essential to modern economies generate substantial quantities of wastes and emissions, this new book describes both the science (theory) and engineering (application) principles of Green Chemistry that lead to the generation of less waste - This book contains expert advise from scientists around the world, encompassing developments in the field since 2000 - Aids manufacturers, scientists, managers, and engineers on how to implement ongoing changes in a vast developing field that is important to the environment and our lives |
| future trends in green chemistry: Green Chemistry in the Pharmaceutical Industry Peter J. Dunn, Andrew Wells, Michael T. Williams, 2010-02-02 Edited by three of the world's leading pharmaceutical scientists, this is the first book on this important and hot topic, containing much previously unpublished information. As such, it covers all aspects of green chemistry in the pharmaceutical industry, from simple molecules to complex proteins, and from drug discovery to the fate of pharmaceuticals in the environment. Furthermore, this ready reference contains several convincing case studies from industry, such as Taxol, Pregabalin and Crestor, illustrating how this multidisciplinary approach has yielded efficient and environmentally-friendly processes. Finally, a section on technology and tools highlights the advantages of green chemistry. |
| future trends in green chemistry: Green Analytical Chemistry Justyna Płotka-Wasylka, Jacek Namieśnik, 2019-08-02 The book explains the principles and fundamentals of Green Analytical Chemistry (GAC) and highlights the current developments and future potential of the analytical green chemistry-oriented applications of various solutions. The book consists of sixteen chapters, including the history and milestones of GAC; issues related to teaching of green analytical chemistry and greening the university laboratories; evaluation of impact of analytical activities on the environmental and human health, direct techniques of detection, identification and determination of trace constituents; new achievements in the field of extraction of trace analytes from samples characterized by complex composition of the matrix; “green” nature of the derivatization process in analytical chemistry; passive techniques of sampling of analytes; green sorption materials used in analytical procedures; new types of solvents in the field of analytical chemistry. In addition green chromatography and related techniques, fast tests for assessment of the wide spectrum of pollutants in the different types of the medium, remote monitoring of environmental pollutants, qualitative and comparative evaluation, quantitative assessment, and future trends and perspectives are discussed. This book appeals to a wide readership of the academic and industrial researchers. In addition, it can be used in the classroom for undergraduate and graduate Ph.D. students focusing on elaboration of new analytical procedures for organic and inorganic compounds determination in different kinds of samples characterized by complex matrices composition.Jacek Namieśnik was a Professor at the Department of Analytical Chemistry, Gdańsk University of Technology, Poland. Justyna Płotka-Wasylka is a teacher and researcher at the same department. |
| future trends in green chemistry: New Trends in Green Chemistry Mazaahir Kidwai, V. K. Ahluwalia, 2004 |
| future trends in green chemistry: Green Chemistry Suresh C. Ameta, Rakshit Ameta, 2013-09-11 This book highlights the potential and scope of green chemistry for clean and sustainable development. Covering the basics, the book introduces readers to the need and the many applications and benefits and advantages of environmentally friendly chemical practice and application in industry. The book addresses such topics as ecologically safe products, catalysts and solvents, conditions needed to produce such products, types of chemical processes that are conducive to green chemistry, and much more. |
| future trends in green chemistry: Green Chemistry and Engineering Concepción Jiménez-González, David J. C. Constable, 2011-04-12 The past, present, and future of green chemistry and green engineering From college campuses to corporations, the past decade witnessed a rapidly growing interest in understanding sustainable chemistry and engineering. Green Chemistry and Engineering: A Practical Design Approach integrates the two disciplines into a single study tool for students and a practical guide for working chemists and engineers. In Green Chemistry and Engineering, the authors—each highly experienced in implementing green chemistry and engineering programs in industrial settings—provide the bottom-line thinking required to not only bring sustainable chemistry and engineering closer together, but to also move business towards more sustainable practices and products. Detailing an integrated, systems-oriented approach that bridges both chemical syntheses and manufacturing processes, this invaluable reference covers: Green chemistry and green engineering in the movement towards sustainability Designing greener, safer chemical synthesis Designing greener, safer chemical manufacturing processes Looking beyond current processes to a lifecycle thinking perspective Trends in chemical processing that may lead to more sustainable practices The authors also provide real-world examples and exercises to promote further thought and discussion. The EPA defines green chemistry as the design of chemical products and processes that reduce or eliminate the use or generation of hazardous substances. Green engineering is described as the design, commercialization, and use of products and processes that are feasible and economical while minimizing both the generation of pollution at the source and the risk to human health and the environment. While there is no shortage of books on either discipline, Green Chemistry and Engineering is the first to truly integrate the two. |
| future trends in green chemistry: Green Chemistry Paul T. Anastas, John Charles Warner, 2000-01-01 ''As the summary of a vision, the book is brilliant. One can feel the enthusiasm of the authors throughout...I see it as a vehicle for initiating a fruitful dialogue between chemical producers and regulatory enforcers without the confrontation, which often characterizes such interactions.' ' -Martyn Poliakoff, Green Chemistry, February ' Its is an introductory text taking a broad view and intergrating a wide range of topics including synthetic methodologies, alternative solvents and catalysts, biosynthesis and alternative feedstocks. There are exercises for students and the last chapter deals with future trends' Aslib |
| future trends in green chemistry: Introduction to Green Chemistry Albert Matlack, 2010-04-05 The book covers traditional green chemistry topics, including catalysis, benign solvents, and alternative feedstocks. It also discusses relevant but less frequently covered topics with chapters such as Chemistry of Longer Wear and Population and the Environment. This coverage highlights the importance of chemistry to everyday life and demonstrates the benefits the expanded exploitation of green chemistry can have for society. Copiously illustrated with over 800 figures, this second edition provides an update from the frontiers of the field. |
| future trends in green chemistry: Alternative Energy Sources for Green Chemistry Georgios Stefanidis, Andrzej Stankiewicz, 2016-08-24 The use of alternative energy forms and transfer mechanisms is one of the key approaches of process intensification. In recent years, significant amounts of research have been carried out in developing chemical processing technologies enhanced by plasma, electric and magnetic fields, electromagnetic and ultra-sound waves and high gravity fields. Discussing the broad impact of alternative energy transfer technologies on reactions, separations and materials synthesis, this book reports on recent breakthrough results in various application areas. It provides a comprehensive overview of the current developments in the field. The book enables industrialists, academics and postgraduates in alternative-energy based processing to see the potential of alternative energies for green chemistry and sustainability of chemical manufacturing. |
| future trends in green chemistry: New Trends in Green Chemistry V K Ahluwalia, M Kidwai, 2004-02-29 The synthesis of molecules having diverse uses in medicines, agrochemicals and biomolecules are dealt with in organic chemistry. The basic concern of the industries producing such chemicals is the type of reaction involved and the percentage of yield etc. so that synthesis becomes cost effective giving special attention to ensure that there is no environmental pollution. All these considerations form the basis of green chemistry - the pressing need of the world. This book describes the methodologies/technologies to carry out green synthesis, which is extremely important for industries and also for chemical laboratories. The main features discussed are: -Designing a green synthesis; -Basic principles of green chemistry; -Prevention of environmental pollution; -Microwave induced and ultrasound assisted green synthesis; -Organic synthesis in aqueous phase and solid phase; -Use of green reagents, green catalysts and green solvents. |
| future trends in green chemistry: Handbook of Green Chemistry and Technology James H. Clark, Duncan J. Macquarrie, 2008-04-15 Sustainable development is now accepted as a necessary goal for achieving societal, economic and environmental objectives. Within this chemistry has a vital role to play. The chemical industry is successful but traditionally success has come at a heavy cost to the environment. The challenge for chemists and others is to develop new products, processes and services that achieve societal, economic and environmental benefits. This requires an approach that reduces the materials and energy intensity of chemical processes and products; minimises the dispersion of harmful chemicals in the environment; maximises the use of renewable resources and extends the durability and recyclability of products in a way that increases industrial competitiveness as well as improve its tarnished image. |
| future trends in green chemistry: Green Chemistry V. K. Ahluwalia, 2013 Focuses on environmentally benign chemical synthesis, basic principles of green chemistry and how to plan a green synthesis, and organic synthesis using benign green solvents like water, supercritical carbon dioxide ionic liquids, polyethylene glycol and ferrous solvents. |
| future trends in green chemistry: Green Chemistry Dr. P. Tharmaraj, Dr. J. Shakina, Dr. R. Sujatha, Dr. L. Alphonse, Misuse of chemistry, such as the manufacturing of nonbiodegradable materials and the discharge of pollutants and poisonous compounds, has harmed the environment and all forms of life, including people. It is now clear that chemical science has to change its focus from exploiting finite resources and producing ever-greater quantities of products that end up as waste to using chemistry to meet human needs in ways that do not compromise the health of the planet's life-sustaining ecosystems. Fortunately, environmental friendliness & resource sustainability are becoming more important in the practice of the chemical science and business, Green chemistry is the term given to a method of chemistry that optimizes its advantages while eliminating or significantly decreasing its harmful aspects. Green chemistry & green chemical engineering aim to reduce waste and the production or use of especially hazardous materials by modifying or reimagining chemical goods and processes. Those that practice green chemistry take personal responsibility for the impact their chemicals and procedures have on the environment. To the contrary, green chemistry seeks to boost profits and encourage innovation while safeguarding human health and the environment, making it anything but an economic drag. This accessible book covers a wide range of topics related to sustainable and environmentally friendly chemistry from a scientific, technological, and policy perspective. With the goal of promoting global learning, contemplation, and scaling-up action through a shared understanding of the notion, it explores many aspects of the issue. |
| future trends in green chemistry: Waste Valorisation Carol Sze Ki Lin, Guneet Kaur, Chong Li, Xiaofeng Yang, 2020-12-14 A guide to the wide-variety of waste valorisation techniques related to various biomass, waste materials and by products Waste Valorisation provides a comprehensive review of waste chemistry and its application to the generation of value-added products. The authors – noted experts on the topic – offer a clear understanding of waste diversity, drivers and policies governing its valorisation based on the location. The book provides information on the principles behind various valorisation schemes and offers a description of general treatment options with their evaluation guidelines in terms of cost, energy consumption and waste generation. Each of the book's chapters contain an introduction which summarises the current production and processing methods, yields, energy sources and other pertinent information for each specific type of waste. The authors focus on the most relevant novel technologies for value-added processing of waste streams or industrial by-products which can readily be integrated into current waste management systems. They also provide the pertinent technical, economic, social and environmental evaluations of bioconversions as future sustainable technologies in a biorefinery. This important book: Presents the most current technologies which integrate waste and/or by-product valorisation Includes discussions on end-product purity and life-cycle assessment challenges Explores relevant novel technologies for value-added processing of waste streams or industrial by-products which can be integrated into current waste management systems Offers a guide to waste reuse, a key sustainability goal for existing biorefineries wishing to reduce material and environmental costs Written for academic researchers and industrial scientists working in agricultural and food production, bioconversions and waste management professionals, Waste Valorisation is an authoritative guide to the chemistry and applications of waste materials and provides an overview of the most recent developments in the field. |
| future trends in green chemistry: Benign by Design Paul T. Anastas, American Chemical Society. Meeting, 1994 Describes the current status and potential of synthetic chemistry designed to use and to generate fewer hazardous substances. Examines new techniques for carrying out transformations in environmentally benign solvent systems. Presents research results on the replacement of hazardous feedstocks with biologically derived, innocuous feedstocks; of hazardous reagents with visible light; and of phosgene, benzene, and halogens in a variety of industrially important reactions. Provides examples of how alternative synthetic design for pollution prevention has been made commercially viable. Describes how to conduct a source-reduction assessment and analyzes computer-assisted synthetic design. |
| future trends in green chemistry: Sonochemistry: New Opportunities For Green Chemistry Gregory Chatel, 2016-12-22 The application of ultrasound waves to chemical reactions — sonochemistry — has huge potential for innovation in eco-friendly and eco-efficient chemistry. Sonochemistry: New Opportunities for Green Chemistry first introduces the basics of ultrasonic waves and the history of sonochemistry before moving on to look at acoustic cavitation and the estimation of ultrasonic parameters. After this comes a discussion of the equipment needed for experimentation with sonochemistry. Finally there is an in-depth look at green sonochemistry in different fields of research, covering concepts such as new combinations of ultrasound with ionic liquids, microwave irradiation, enzyme combination, and sono-assisted electrochemistry. In conclusion, distinguished sonochemists from around the world share their opinions on the green sonochemistry, and their predictions in the field.Undergraduate and graduate students in chemistry, and practitioners of ultrasonic technology will gain a unique insight into the opportunities and challenges facing sonochemistry today in its theoretical and practical implementation. |
| future trends in green chemistry: Green Chemistry for Sustainable Textiles Nabil Ibrahim, Chaudhery Mustansar Hussain, 2021-07-21 Green Chemistry for Sustainable Textiles: Modern Design and Approaches provides a comprehensive survey of the latest methods in green chemistry for the reduction of the textile industry's environmental impact. In recent years industrial R&D has been exploring more sustainable chemicals as well as eco-friendly technologies in the textile wet processing chain, leading to a range of new techniques for sustainable textile manufacture. This book discusses and explores basic principles of green chemistry and their implementation along with other aspects of cleaner production strategies, as well as new and emerging textile technologies, providing a comprehensive reference for readers at all levels.Potential benefits to industry from the techniques covered in this book include: Savings in water, energy and chemical consumption, waste minimization as well as disposal cost reduction, and production of high added value sustainable textile products to satisfy consumer demands for comfort, safety, aesthetic, and multi-functional performance properties. - Innovative emerging methods are covered as well as popular current technologies, creating a comprehensive reference that facilitates comparisons between methods - Evaluates the fundamental green chemistry principles as drivers for textile sustainability - Explains how and why to use renewable green chemicals in the textile wet processing chain |
| future trends in green chemistry: The Impact and Prospects of Green Chemistry for Textile Technology Shahid Ul Islam, Bhupendra Singh Butola, 2018-11-02 The Impact and Prospects of Green Chemistry for Textile Technology provides a review and summary of the role of green chemistry in textiles, including the use of green agents and sustainable technologies in different textile applications. The book systematically covers the history and chemistry of eco-friendly colorants, chitin, chitosan, cyclodextrin, biomordants, antimicrobial, UV protective, flame retardant, insect repellant textiles, and advanced pre- and post- treatment technologies, such as the sonochemistry and plasma methods currently employed in functional modifications. The book also pays attention to the remediation of textile effluents using novel, sustainable and inexpensive adsorbents. Written by high profile contributors with many years of experience in textile technology, the book gives engineers and materials scientists in the textile industry the information they need to effectively deploy these green technologies and processes. - Introduces green chemistry and sustainable technologies, and explores their role in different textile applications - Examines the use of renewable materials, such as biopolymers, dyes and pigments, biomordants, polyphenols and plant extracts in functional finishing applications - Deals the functional modification of textiles using state-of-the-art biotechnology and nanotechnology |
| future trends in green chemistry: Green Chemistry Education Paul T. Anastas, Irvin Jay Levy, Kathryn E. Parent, 2009 Green Chemistry has brought about dramatic changes in the teaching of chemistry that have resulted in increased student excitement for the subject of chemistry, new lecture materials, new laboratory experiments, and a world-wide community of Green Chemistry teachers. This book features the cutting edge of this advance in the teaching of chemistry. |
| future trends in green chemistry: Green Trends in Insect Control Oscar López, José G. Fernández-Bolaños, 2011 The book is divided into 9 chapters, each considering the state of art of each family of insecticides, together with future expectations. |
| future trends in green chemistry: Catalysis, Green Chemistry and Sustainable Energy Angelo Basile, Gabriele Centi, Marcello De Falco, Gaetano Iaquaniello, 2019-11-22 Catalysis, Green Chemistry and Sustainable Energy: New Technologies for Novel Business Opportunities offers new possibilities for businesses who want to address the current global transition period to adopt low carbon and sustainable energy production. This comprehensive source provides an integrated view of new possibilities within catalysis and green chemistry in an economic context, showing how these potential new technologies may become useful to business. Fundamentals and specific examples are included to guide the transformation of idea to innovation and business. Offering an overview of the new possibilities for creating business in catalysis, energy and green chemistry, this book is a beneficial tool for students, researchers and academics in chemical and biochemical engineering. - Discusses new developments in catalysis, energy and green chemistry from the perspective of converting ideas to innovation and business - Presents case histories, preparation of business plans, patent protection and IP rights, creation of start-ups, research funds and successful written proposals - Offers an interdisciplinary approach combining science and business |
| future trends in green chemistry: Advances in Green Synthesis Inamuddin, Rajender Boddula, Mohd Imran Ahamed, Anish Khan, 2021-05-18 This edited book focusses on green chemistry as the research community endeavours to create eco-friendly materials and technologies. It provides an in-depth overview of the fundamentals, key concepts and experimental techniques for eco-friendly synthesis of organic compounds and metal/metal oxide nanoparticles/nanomaterials. It also emphasizes the mechanisms, designing and industrial technologies for green synthesis and its applications. Each chapter brings the recent developments, state of the art, challenges and perspectives which cover all the aspects in one place, and which concern the green synthesis and evolution. Authored by world-renowned experts in a broad range of green chemistry sectors, this book is an archival reference guide for researchers, engineers, scientists and postgraduates working in the field of sustainable science, green chemistry, environmental science, engineering sciences and industrial technologies. |
| future trends in green chemistry: Challenges in Green Analytical Chemistry Salvador Garrigues, Miguel de la Guardia, 2020-05-13 Covering topics including solvent selection, miniaturization and metrics for the evaluation of greenness this is a useful resource for researchers interested in reducing the risks and environmental impacts of analytical methods. |
| future trends in green chemistry: How to Commercialize Chemical Technologies for a Sustainable Future Timothy J. Clark, Andrew S. Pasternak, 2021-06-08 The definitive guide for scientific entrepreneurs commercializing sustainable technologies in the chemical sector Lacking the considerable resources of multinational chemical companies, entrepreneurs face a unique set of risks and challenges. How to Commercialize Chemical Technologies for a Sustainable Future is targeted at innovators who are embarking on the entrepreneurial path with their sustainable chemical technology but are unsure of what steps to take. This first-of-its-kind resource features contributions from a diverse team of expert authors, including engineers, venture capitalists, marketing specialists, intellectual property professionals, regulatory experts, industry practitioners, and many others. Accessible and highly practical, this real-world guide covers each step of the technology commercialization process, from market landscape analysis and financing to scale-up and strategic partnering. Throughout the book, effective tactics and strategies for growing a new venture are supported by case studies highlighting the economic and environmental impact of successful commercialization, and identifying the common mistakes that lead to lost opportunities. Filled with invaluable advice and actionable steps, this book: Uses valuation concepts, tools, and examples to demonstrate that for a chemical technology to be sustainable it must not only have market value but also confer benefits to human well-being and the environment Offers templates and tools for understanding what customers need, who the competition is and how to successfully differentiate your product to those customers Describes how to practically advance your technology from conception all the way to commercial demonstration Presents advantages and disadvantages of strategic partnering from the perspective of the start-up and the larger industrial partner, along with strategies to mitigate risks within a partnership Provides an overview of the legal regulatory requirements for bringing new chemicals to market in several key geographic regions, as well as the impact of public policy on commercialization Offers insights and practical strategies on intellectual property management, raising investment, and operationalizing a startup company How to Commercialize Chemical Technologies for a Sustainable Future is essential reading for budding entrepreneurs in chemistry, materials science, and chemical engineering looking to bring their sustainable technologies to market. It is also a valuable reference for investors, policymakers, regulators, and other professionals. |
| future trends in green chemistry: Green Chemistry and Catalysis R. A. Sheldon, Isabella Arends, Ulf Hanefeld, 2007-06-27 This first book to focus on catalytic processes from the viewpoint of green chemistry presents every important aspect: · Numerous catalytic reductions and oxidations methods · Solid-acid and solid-base catalysis · C-C bond formation reactions · Biocatalysis · Asymmetric catalysis · Novel reaction media like e.g. ionic liquids, supercritical CO2 · Renewable raw materials Written by Roger A. Sheldon -- without doubt one of the leaders in the field with much experience in academia and industry -- and his co-workers, the result is a unified whole, an indispensable source for every scientist looking to improve catalytic reactions, whether in the college or company lab. |
| future trends in green chemistry: Integrating Green and Sustainable Chemistry Principles into Education Andrew P. Dicks, Loyd D. Bastin, 2019-07-19 Integrating Green and Sustainable Chemistry Principles into Education draws on the knowledge and experience of scientists and educators already working on how to encourage green chemistry integration in their teaching, both within and outside of academia. It highlights current developments in the field and outlines real examples of green chemistry education in practice, reviewing initiatives and approaches that have already proven effective. By considering both current successes and existing barriers that must be overcome to ensure sustainability becomes part of the fabric of chemistry education, the book's authors hope to drive collaboration between disciplines and help lay the foundations for a sustainable future. - Draws on the knowledge and expertise of scientists and educators already working to encourage green chemistry integration in their teaching, both within and outside of academia - Highlights current developments in the field and outlines real examples of green chemistry education in practice, reviewing initiatives and approaches that have already proven effective - Considers both current successes and existing barriers that must be overcome to ensure sustainability |
| future trends in green chemistry: Green Industrial Applications of Ionic Liquids Robin D. Rogers, Kenneth R. Seddon, Sergeĭ Volkov, 2002 This book contains the lecture notes for the NATO Advanced Research Workshop on th Green Industrial Applications of Ionic Liquids held April 12th_16 , 2000 in Heraklion, Crete, Greece. This was the fIrst international meeting devoted to research in the area of ionic liquids (salts with melting points below 100 0c), and was intended to explore the promise of ionic liquids as well as to set a research agenda for the fIeld. It was the fIrst international meeting dedicated to the study and application of ionic liquids as solvents, and forty-one scientists and engineers from academia, industry, and government research laboratories (as well as six industry observers and four student assistants) met to discuss the current and future status of the application of ionic liquids to new green industrial technologies. It was immediately clear that the number of organic chemists and engineers working in the fIeld needed to be increased. It was also clear that the declining interest in high temperature molten salts and subsequent increase in low melting ionic liquid solvents had not yet taken hold in Eastern Europe. Participants from NATO Partner Countries contributed signifIcant expertise in high temperature molten salts and were able to take back a new awareness and interest in ionic liquid solvents. |
| future trends in green chemistry: Sustainable Industrial Chemistry Fabrizio Cavani, Gabriele Centi, Siglinda Perathoner, Ferruccio Trifirò, 2009-09-22 In recent years the need for sustainable process design and alternative reaction routes to reduce industry?s impact on the environment has gained vital importance. The book begins with a general overview of new trends in designing industrial chemical processes which are environmentally friendly and economically feasible. Specific examples written by experts from industry cover the possibilities of running industrial chemical processes in a sustainable manner and provide an up-to-date insight into the main concerns, e.g., the use of renewable raw materials, the use of alternative energy sources in chemical processes, the design of intrinsically safe processes, microreactor and integrated reaction/ separation technologies, process intensification, waste reduction, new catalytic routes and/or solvent and process optimization. |
| future trends in green chemistry: Green Chemistry and Quality by Design in Process Analytical Technologies and Drug Design Suryakanta Swain, Bikash Ranjan Jena, 2024-04-10 Quality by design (QbD) is becoming an integral element of the modern pharmaceutical and chemical development approach. In this book, the future ramifications of emergent modern applications of QbD and green analytical chemistry in drug design, process analytical technologies, and bioanalytical process development instruments are discussed. It will reveal and improve the QbD principles used in bioanalysis, process development, downstream processing, and the combination of QbD and green analytical chemistry employing eco-friendly and green solvents for product development. In addition, it will provide complete information regarding applying the QbD concept and ideology to quality control and process development. The book will be beneficial to PhD research scholars, researchers, and postgraduate and undergraduate students of pharmacy and chemical sciences for understanding the concept of quality by design and green chemistry for drug design, as it illustrates the necessary inputs that are related to product quality and, ultimately, process sustainability. |
| future trends in green chemistry: The Future of the Chemical Industry by 2050 Rafael Cayuela Valencia, 2013-03-27 Discussing the technological supremacy of the chemical industry, including pharmaceuticals, and how it will adopt a leading position to solve some of the largest global challenges humans have even seen, this book details how the industry will address climate change, aging populations, resource scarcity, globality, networks speed, pandemics, and massive growth and demand. Following a detailed introduction to some of the megatrends shaping our world over the forthcoming decades, the book goes on to provide several scenarios of how the world could look by 2050, including 'business as usual' and a 'sustainable' one. Chapter 3 gives a comprehensive overview of the current status, while providing a short historical review of the chemical industry, its origins, achievements and fundamentals. The following chapter reviews the potential impact of each of the selected megatrends on the industry, while Chapter 5 proposes how it could look by 2050. Several features of the chemical industry are presented and discussed, including the industrial relevance from an economical, technological and profitability point of view. The largest chemicals markets in absolute and per capita bases and the areas and countries with largest growth potential for chemicals, pharmaceuticals and feedstock. This chapter also reviews the impact of climate change on the chemical industry from a feedstocks and products point of view and, more specifically, the potential costs in reducing CO2 emissions. A final, concluding chapter summarizes the forthcoming megatrends and potential challenges, opportunities and the outlook for the industry as a whole. |
| future trends in green chemistry: Green Chemistry – I Dr. M. Umayavalli, Dr. S. Parvathy, Dr. Bhavani Boddeda, Mr. S Ganesan, 2024-01-22 The concept of green chemistry, which is often referred to as sustainable chemistry, is a chemical philosophy that promotes the development of products and processes that minimize or eliminate the use of hazardous compounds and the production of such substances. Green chemistry is an approach to chemistry that aims to minimize and avoid pollution at its source, in contrast to environmental chemistry, which is the study of chemistry that includes the natural environment and the substances that cause pollution in nature. Within the United States of America, the Pollution Prevention Act was enacted in the year 1990. With the aid of this legislation, a method of operation was developed for addressing pollution in a manner that was both creative and inventive. It aims to prevent issues from occurring in the first place. Companies have been able to reach commercial and social objectives while simultaneously benefiting the environment as a result of innovations and uses of green chemistry brought about by the field of education. Given that education is the precursor to implementation, a student must get training to apply chemistry in a more environmentally friendly manner. To serve as a textbook for a discipline-specific elective source, this book on green chemistry has been developed. This book was prepared with the intention of introducing the idea of green chemistry to students who are enrolled in college-level courses. |
| future trends in green chemistry: Green Analytical Chemistry Mihkel Koel, Mihkel Kaljurand, 2015-11-09 Concerns about environmental pollution, global climate change and hazards to human health have increased dramatically. This has led to a call for change in chemical processes including those that are part of chemical analysis. The development of analytical chemistry continues and every new discovery in chemistry, physics, molecular biology, and materials science brings new opportunities and challenges. Yet, contemporary analytical chemistry does not consume resources optimally. Indeed, the usage of toxic chemical compounds is at the highest rate ever. All this makes the emerging field of green chemistry a “hot topic” in industrial, governmental laboratories as well as in academia. This book starts by introducing the twelve principles of green chemistry. It then goes on to discuss how the principles of green chemistry can be used to assess the ‘greenness’ of analytical methodologies. The ‘green profile’ proposed by the ACS Green Chemistry Institute is also presented. A chapter on “Greening” sample preparation describes approaches to minimizing toxic solvent use, using non-toxic alternatives, and saving energy. The chapter on instrumental methods describes existing analytical approaches that are inherently green and making non-green methods greener. The final chapter on signal acquisition describes how quantitative structure-property relationship (QSPR) ideas could reduce experimental work thus making analysis greener. The book concludes with a discussion of how green chemistry is both possible and necessary. Green Analytical Chemistry is aimed at managers of analytical laboratories but will also interest teachers of analytical chemistry and green public policy makers. |
| future trends in green chemistry: Green Techniques for Organic Synthesis and Medicinal Chemistry Wei Zhang, Berkeley W. Cue, 2012-05-10 An updated overview of the rapidly developing field of green engineering techniques for organic synthesis and medicinal chemistry Green chemistry remains a high priority in modern organic synthesis and pharmaceutical R&D, with important environmental and economic implications. This book presents comprehensive coverage of green chemistry techniques for organic and medicinal chemistry applications, summarizing the available new technologies, analyzing each technique’s features and green chemistry characteristics, and providing examples to demonstrate applications for green organic synthesis and medicinal chemistry. The extensively revised edition of Green Techniques for Organic Synthesis and Medicinal Chemistry includes 7 entirely new chapters on topics including green chemistry and innovation, green chemistry metrics, green chemistry and biological drugs, and the business case for green chemistry in the generic pharmaceutical industry. It is divided into 4 parts. The first part introduces readers to the concepts of green chemistry and green engineering, global environmental regulations, green analytical chemistry, green solvents, and green chemistry metrics. The other three sections cover green catalysis, green synthetic techniques, and green techniques and strategies in the pharmaceutical industry. Includes more than 30% new and updated material—plus seven brand new chapters Edited by highly regarded experts in the field (Berkeley Cue is one of the fathers of Green Chemistry in Pharma) with backgrounds in academia and industry Brings together a team of international authors from academia, industry, government agencies, and consultancies (including John Warner, one of the founders of the field of Green Chemistry) Green Techniques for Organic Synthesis and Medicinal Chemistry, Second Edition is an essential resource on green chemistry technologies for academic researchers, R&D professionals, and students working in organic chemistry and medicinal chemistry. |
| future trends in green chemistry: Sustainable Solutions for Modern Economies Rainer Hofer, 2009-11-20 Limited supplies of fossil fuels and concerns about global warming have created a strong desire to solve the resource issue in the age beyond petroleum. This reference book, from the Green Chemistry Series, contains the essential areas of green chemistry and sustainability in modern economies. It is the first book to outline the contribution of chemistry, and of renewable chemical or biological resources, to the sustainability concept and to the potential resolution of the world's energy problems. It describes the current status of technical research, and industrial application, as well as the potential of biomass as a renewable resource for energy generation in power stations, as alternative fuels, and for various uses in chemistry. It outlines the historical routes of the sustainability concept and specifies sustainability in metrics, facts and figures. The book is written by European experts from academia, industry and investment banking who are world leaders in research and technology regarding sustainability, alternative energies and renewable resources. The sustainability aspects covered include: * consumer behaviour and demands, lifestyles and mega trends, and their impact on innovation in the industry * consumer industry requirements and their impact on suppliers * emerging paradigm changes in raw material demand, availability, sourcing, and logistics * the contribution of the industry to restore the life support systems of the Earth * socially responsible banking and investment * sustainability metrics The book highlights the potential of the different forms of renewable raw materials including: * natural fats and oils * plant-based biologically active ingredients * industrial starch * sucrose * natural rubber * wood * natural fibres It also covers the actual status of biomass usage for green energy generation, green transportation, green chemistry and sustainable nutrition and consumer goods, and it depicts the potentials of green solvents and white biotechnology for modern synthesis and manufacturing technologies. The book is aimed at technical and marketing people in industry, universities and institutions as well as readers in administrations and NGOs. The book will also be of value to the worldwide public interested in sustainability issues and strategies as well as others interested in the practical means that are being used to reduce the environmental impact of chemical processes and products, to further eco-efficiency, and to advance the utilization of renewable resources. |
| future trends in green chemistry: Green Chemistry Rafael Luque, 2014 Nanotechnology, energy and the environment are three key hot topics included in green technologies present in all international challenges for the future. The urgency to identify and develop sustainable and timely solutions for our future society is demonstrated due to the alarming trends in global energy demand, the finite nature of fossil fuel reserves, the need to dramatically curb emissions of greenhouse gases (GHG) to mitigate the devastating consequences of climate change, the damaging volatility of oil prices and the geopolitical instability in supplier regions. This book examines several of these topics related to green chemistry in a multidisciplinary and unique book which covers the essence of green chemical technologies. The book also features top contributions from well-established and respected authors in world-wide research programs. |
| future trends in green chemistry: The Periodic Table of the Elements of Green and Sustainable Chemistry Julie B. Zimmerman, Paul T. Anastas, 2020-03-17 The field of Green and Sustainable Chemistry has demonstrated its ability to address some of greatest challenges as outlined by the United Nations Sustainability Development Goals (SDGs). The many aspects of Green and Sustainable Chemistry have been presented in the format of the Periodic Table of the Elements in order to illustrate the importance of each of the types of contributions. The book presents the Humanitarian Elements that underlie the reasons that drive the field of Green and Sustainable Chemistry, the scientific and technological elements of green chemistry and engineering the manifest the discovery and invention of new sustainable technologies, the Enabling Systems Conditions that allow sustainable solutions to go to scale, and the Noble Elements that are the vision for the sustainable world we strive for. |
| future trends in green chemistry: Green Chemistry and Technology Mark Anthony Benvenuto, George Ruger, 2021-03-08 The 6th volume of Green Chemical Processing considers sustainable chemistry in the context of innovative and emerging technologies, explaining how they can support the “greening” of industry processes. The American Chemical Society’s 12 Principles of Green Chemistry are woven throughout this text as well as the series to which this book belongs. |
| future trends in green chemistry: Sustainable Green Chemical Processes and their Allied Applications Inamuddin, Abdullah Asiri, 2020-05-30 Urbanization, industrialization, and unethical agricultural practices have considerably negative effects on the environment, flora, fauna, and the health and safety of humanity. Over the last decade, green chemistry research has focused on discovering and utilizing safer, more environmentally friendly processes to synthesize products like organic compounds, inorganic compounds, medicines, proteins, enzymes, and food supplements. These green processes exist in other interdisciplinary fields of science and technology, like chemistry, physics, biology, and biotechnology, Still the majority of processes in these fields use and generate toxic raw materials, resulting in techniques and byproducts which damage the environment. Green chemistry principles, alternatively, consider preventing waste generation altogether, the atom economy, using less toxic raw materials and solvents, and opting for reducing environmentally damaging byproducts through energy efficiency. Green chemistry is, therefore, the most important field relating to the sustainable development of resources without harmfully impacting the environment. This book provides in-depth research on the use of green chemistry principles for a number of applications. |
| future trends in green chemistry: Green Chemistry in Scientific Literature Sanjay Sharma, Hasan Demir, 2019-11-22 The study covers recent statistical data of the principles of Green Chemistry, a bibliometric study of research and review papers published between 1999 and 2018, and recent trends of research topics on Green Chemistry. This study collects, processes and refines available information in scientific area. The authors have provided recent statistical data on the principles of Green Chemistry and a bibliometric analysis of published review and research articles, as well as trends of research topics, in this unique volume. Key Features: Provides a comprehensive review of recent statistical data on the principles of Green Chemistry. Presents a bibliometric analysis of published reviews and research articles as well as the trends of research topics in Green Chemistry. Surveys and critically analyzes Green Chemistry literature The subject matter is timely since tracking of research trends in the Green Chemistry field is important for directing future research |
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