Bøker i Sustainability: Contributions through Science and Technology-serien

Focusing on the fast-growing use of microwave heating as a tool for sustainable chemistry, this text details its use as an enabling technology, especially in organic chemistry. It cites the key advantages of microwave over conventional heating, including shorter reaction times, higher product yields, and enhanced selectivity.

When the Nobel Prize Committee recognized the importance of green chemistry with its 2005 Nobel Prize for Chemistry, this relatively new science came into its own. Linking green chemistry practice to environmental sustainability, this book illustrates the efforts being made to remediate a scathed environment into a pristine one.

The last decade has seen a huge interest in green organic chemistry, particularly as chemical educators look to "green" their undergraduate curricula. Detailing published laboratory experiments and proven case studies, this book discusses concrete examples of green organic chemistry teaching approaches from both lecture/seminar and practical perspectives. Leading contributors address such topics as the elimination of solvents in the organic laboratory, organic reactions under aqueous conditions, organic reactions in non-aqueous media, and organic reagents. This reference allows instructors to directly incorporate the material presented in the text into their courses.

Focusing on green chemistry and sustainability, this book discusses how plasma treatment has been used to modify textile properties. The book highlights the benefits of generating plasma and the reaction mechanisms between the surface of a textile and plasma species. The text addresses factors such as the nature of plasma gas, gas flow rate, system pressure, and discharge power that affect the final results of plasma treatments. An opening chapter presents current "brown" methods of treating textiles, exploring the environmental, economic and social costs of these methods. Throughout the book, the author presents the twelve principles of green chemistry and how they can be applied to the textile industry.

Increased environmental consciousness within the scientific community has spurred the search for environmentally friendly processes as alternatives to conventional organic solvents. Numerous advances¿including the use of ionic liquids¿have made it possible to develop substitutes for some toxic solvents. The book presents the latest developments in the field. It also reviews the latest applications in a wide range of fields including biotechnology, nuclear science, medicine, pharmaceuticals, environmental science, and organic and inorganic chemistry¿all from the standpoint of green sustainable chemistry.

This book explores the intersection between catalytic science and sustainable technologies as a means to addressing current economic, social, and environmental problems, including harnessing alternative energy sources, pollution prevention and remediation, and the manufacturing of commodity products. Chapters are dedicated to specific research areas of catalysis as they pertain to their effectiveness, their economic and environmental benefits, and the challenges researchers face in actualizing solutions. It provides an introduction to the field and the issues with which it is concerned, as well as a detailed and far-reaching discussion on current achievements and future progress.

The last decade has seen a huge interest in green organic chemistry, particularly as chemical educators look to "green" their undergraduate curricula. Detailing published laboratory experiments and proven case studies, this book discusses concrete examples of green organic chemistry teaching approaches from both lecture/seminar and practical perspectives. Leading contributors address such topics as the elimination of solvents in the organic laboratory, organic reactions under aqueous conditions, organic reactions in non-aqueous media, and organic reagents. This reference allows instructors to directly incorporate the material presented in the text into their courses.

Increased environmental consciousness within the scientific community has spurred the search for environmentally friendly processes as alternatives to conventional organic solvents.

Focusing on green chemistry and sustainability, this book discusses how plasma treatment is used to modify textile properties. It highlights the benefits of generating plasma and the reaction mechanisms between the surface of a textile and plasma species.

The process of photosynthesis is a potential source of energy and bioproducts. Renewable sources of polymeric materials offer an answer to maintaining sustainable development of economically and ecologically attractive technology.

The process of photosynthesis is a potential source of energy and bioproducts. Renewable sources of polymeric materials offer an answer to maintaining sustainable development of economically and ecologically attractive technology. The innovations in the development of materials from biopolymers, preservation of fossil-based raw materials, complete biological degradability, reduction in the volume of garbage and compostability in the natural cycle, climate protection through reduction of carbon dioxide released, and the application possibilities of agricultural resources for the production of bio/green materials are some of the reasons why such materials are attracting public interest.FEATURESDiscusses waste from urban areas, forestry and agricultural processes, specifically grown crops such as trees, starch crops, sugar crops hydrocarbon plants and oils, and finally aquatic plants such as water seaweeds and algae, which can be used as raw materials for sustainable development.Presents recent advances in the development of some specifically chemical components of biomasses for a sustainable future.Focuses on lignocellulose as a source of bio-based products.Draws upon expertise from various countries.Describes how upgraded and integrated biomass processing may reduce the risks associated with the COVID-19 pandemic.¿¿Valentin I. Popa is professor emeritus of Wood Chemistry and Biotechnology at Gheorghe Asachi Technical University of Iasi, Romania.

Nanotechnologies represent a fast-growing market and this unique volume highlights the current studies in applied sciences on sustainability of green science and technology. The chapters include modelling, machine learning, nanotechnology, nanofluids, nanosystems, smart materials and applications and solar and fuel cells technology.

This book describes the application of surface chemistry methods for carbon capture and recycling as related to climate change and CO2 concentration increase in the air. This online educational textbook addresses the importance of CO2 capture and sequestration for the future to use fossil fuels without contributing to atmospheric greenhouse gases.