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Sustainable Strategies in Organic Electronics reviews green materials and devices, sustainable processes in electronics, and the reuse, recycling and degradation of devices. Topics addressed include large-scale synthesis and fabrication of safe device materials processes that neither use toxic reagents, solvents or produce toxic by-products. Emerging opportunities such as new synthetic approaches for enabling the commercialization of pi-conjugated polymer-based devices are explored, along with new efforts towards incorporating materials from renewable resources for a low carbon footprint. Finally, the book discusses the latest advances towards device biodegradability and recycling. It is suitable for materials scientists and engineers, chemists, physicists in academia and industry. - Discusses emerging opportunities for green materials, synthesis and fabrication of organic electronics - Reviews the challenges of integration of sustainable strategies in large-scale manufacturing of organic electronics - Provides an overview of green materials and solvents that can be used as alternatives to toxic materials for organic electronics applications
The field of organic and printed electronics (OPE) is well established in terms of academic, scientific, and technological research. The mass applications, ranging from displays to printed sensors to photovoltaics, are growing and becoming all the more relevant today. This book provides a comprehensive introduction to organic flexible and printed electronics, their fundamental aspects, core technologies, and applications and is authored by international expert practitioners in the field. The book is a key reference resource specially designed to address students in their final undergraduate or beginning graduate studies as well as engineers interested in approaching this field from an application perspective. In this second edition of the book, almost all chapters have been revised and updated. Among others, the second edition includes new chapters on smart textiles and on photovoltaics. The chapter on characterization techniques has been expanded and includes new references to standards. The contents on circular economy, innovation management, and roadmapping chapters have been largely augmented and updated. Finally, the chapter on hands-on experiments includes new set-ups on dye solar cells and supercapacitors.
This 4th edition of Handbook of Solvents, Volume 2, contains the most comprehensive information ever published on solvents as well as an extensive analysis of the principles of solvent selection and use. The book begins with a discussion of solvents used in over 30 industries which are the main consumers of solvents. The analysis is conducted based on the available data and contains information on the types (and frequently amounts) of solvents used and potential problems and solutions. Picking up where Handbook of Solvents, Volume 1 leaves off, Handbook of Solvents Volume 2 provides information on the methods of analysis of solvents and materials containing solvents, with 2 sections containing standard and special methods of solvent analysis, followed by a discussion of residual solvents left in the final products. The environmental impact of solvents, such as their fate and movement in the water, soil, and air, fate-based management of solvent-containing wastes, and ecotoxicological effects are discussed as are solvents' impact on tropospheric air pollution. The next 2 chapters are devoted to the toxicology of solvents and regulations aiming to keep solvent toxicity under control. The analysis of the concentration of solvents in more than 15 industries, specific issues related to the paint industry, and characteristics of the environment in automotive collision repair shops are followed by a thorough discussion of regulations in the USA and Europe. Following chapters show examples of solvent substitution by safer materials, with an emphasis on supercritical solvents, ionic liquids, deep eutectic solvents, and agriculture-based products, such as ethyl lactate. Discussion of solvent recycling, removal, and degradation includes absorptive solvent recovery, comparison of results of recovery and incineration, and application of solar photocatalytic oxidation. The book concludes with an evaluation of methods of natural attenuation of various solvents in soils and modern methods of cleaning contaminated soils. - Assists in solvent selection by providing key information and insight on environmental and safety issues - Provides essential best practice guidance for human health consideration - Discusses the latest advances and trends in solvent technology, including modern methods of cleaning contaminated soils, selection of gloves, suits, and respirators
Combining the materials science, technological, and device aspects of organic bioelectronics based on green materials, this is the first overview of the emerging concepts involving fabrication techniques for sustainable electronics with low energy and material consumption. With contributions from top-notch editors and authors, in one focus, the book covers a collection of natural materials suited for electronics applications such as paper, silk, melanin, DNA and nucleobases, resins, gums, saccharides, cellulose, gelatine and peptides. In another thrust, the book focuses on device fabrication based on these materials, including processing aspects, and applications such as sensors, signal transducers, transient, implantable and digestible electronics. With its interdisciplinary approach this text will appeal to the chemistry, physics, materials science, and engineering communities.
Provides first-hand insights into advanced fabrication techniques for solution processable organic electronics materials and devices The field of printable organic electronics has emerged as a technology which plays a major role in materials science research and development. Printable organic electronics soon compete with, and for specific applications can even outpace, conventional semiconductor devices in terms of performance, cost, and versatility. Printing techniques allow for large-scale fabrication of organic electronic components and functional devices for use as wearable electronics, health-care sensors, Internet of Things, monitoring of environment pollution and many others, yet-to-be-conceived applications. The first part of Solution-Processable Components for Organic Electronic Devices covers the synthesis of: soluble conjugated polymers; solution-processable nanoparticles of inorganic semiconductors; high-k nanoparticles by means of controlled radical polymerization; advanced blending techniques yielding novel materials with extraordinary properties. The book also discusses photogeneration of charge carriers in nanostructured bulk heterojunctions and charge carrier transport in multicomponent materials such as composites and nanocomposites as well as photovoltaic devices modelling. The second part of the book is devoted to organic electronic devices, such as field effect transistors, light emitting diodes, photovoltaics, photodiodes and electronic memory devices which can be produced by solution-based methods, including printing and roll-to-roll manufacturing. The book provides in-depth knowledge for experienced researchers and for those entering the field. It comprises 12 chapters focused on: ? novel organic electronics components synthesis and solution-based processing techniques ? advanced analysis of mechanisms governing charge carrier generation and transport in organic semiconductors and devices ? fabrication techniques and characterization methods of organic electronic devices Providing coverage of the state of the art of organic electronics, Solution-Processable Components for Organic Electronic Devices is an excellent book for materials scientists, applied physicists, engineering scientists, and those working in the electronics industry.
This publication is a compilation of the articles published in the BrewingScience bimonthly online journal in 2022. The yearbook is full of new insights - ranging from hop and practical yeast matters all the way to use of new methods such as CrospR-Cas9 in the brewing industry. Contributions extending beyond the horizons of the brewing industry round off the range of topics.
Discover the latest technologies in the pursuit of zero-waste solutions in the electronics industry In Electronic Waste: Recycling and Reprocessing for a Sustainable Future, a team of expert sustainability researchers delivers a collection of resources that thoroughly examine methods for extracting value from electronic waste while aiming for a zero-waste scenario in industrial production. The book discusses the manufacturing and use of materials in electronic devices while presenting an overview of separation methods for industrial materials. Readers will also benefit from a global overview of various national and international regulations related to the topic of electronic and electrical waste. A must-read resource for scientists and engineers working in the production and development of electronic devices, the authors provide comprehensive overviews of the benefits of achieving a zero-waste solution in electronic and electrical waste, as well as the risks posed by incorrectly disposed of electronic waste. Readers will enjoy: An introduction to electronic waste, including the opportunities presented by zero-waste technologies and solutions Explorations of e-waste management and practices in developed and developing countries and e-waste transboundary movement regulations in a variety of jurisdictions Practical discussions of approaches for estimating e-waste generation and the materials used in electronic equipment and manufacturing perspectives In-depth treatments of various recycling technologies, including physical separation, pyrometallurgy, hydrometallurgy, and biohydrometallurgy Perfect for materials scientists, electronic engineers, and metal processing professionals, Electronic Waste: Recycling and Reprocessing for a Sustainable Future will also earn a place in the libraries of industrial chemists and professionals working in organizations that use large amounts of chemicals or produce electronic waste.
Sustainable Marketing is structured around the traditional "4Ps" of marketing and explains how marketing mix decisions can and do influence environmental outcomes. Throughout the book, Donald A. Fuller advocates the conversion of consumption systems to a sustainable paradigm that represents a circular use of resources, not the linear approach (materials >products >consumption >disposal) that leads to the pollution of ecosystems. The book′s running theme is that marketers can reinvent strategy and craft "win-win-win" solutions, where customers win (obtaining genuine benefits), organizations win (achieving financial objectives), and ecosystems win (ecosystem functioning is preserved or enhanced). The theme is vividly illustrated by 49 in-text exhibits of successful corporate environmental initiatives.
This handbook provides a comprehensive global survey of the politics of technology. Written by an outstanding line up of distinguished scholars in the field, the handbook covers all aspects of the relationship between politics and technology including: Demand and support for new technologies and innovation by the state The effects of technology policies Technology development and innovation difference between various countries and regions Policy instruments and techno-industrial innovation Dynamism and change as outcomes of government policies Driving forces for science and innovative development Forming the basis of this handbook are examples of regional development, country studies and a rich variety of technologies, as well as topical issues such as divergent political interests in relation to technology and the economic exploitation of technologies. Employing a comparative and interdisciplinary approach in order to analyse the interplay between government activities and the development of new technologies, this handbook will be an invaluable resource for all students, scholars and practitioners working in the politics of technology, public policy and policy analysis.
A small but influential group of mainstream global industry leaders are now reinventing the role of business in society. They are shifting the focus away from minimizing negative impacts to offering new solutions to global problems that the public sector has been unable to tackle alone. In this new competitive environment, societal challenges such as climate change or the alleviation of global poverty are not only risks, but huge business opportunities, not only for niche players, but for mainstream business. These leaders are creating "Sustainable Value". They are creating it through the provision of value to both their shareholders and their stakeholders – an ever-growing list of diverse constituents impacted by the social, environmental, and financial performance of global business. In short, they are doing well by doing good. In this outstanding book, Chris Laszlo defines, illustrates, and shows how business can action 'Sustainable Value' in three profoundly different ways. First, a management fable looks at the experiences of a dynamic business leader as she grapples with the new business realities of managing stakeholder, as well as shareholder pressures. Second, with the real thing – inside stories from some of the largest corporations in the world that are successfully integrating sustainability into their core activities, not only from a sense of moral correctness, but because it makes good business sense. And, finally, with frameworks, tools, and methods that will make sustainable value creation concrete for business practitioners everywhere. This book is a masterful synthesis – part novel and part executive briefing – a refreshing kind of prophetic pragmatism, helping leaders anticipate and see the future in the context of the actual. In Sustainable Value Chris Laszlo speaks with resounding clarity to the living challenges, the real dilemmas, and haunting questions of CEOs everywhere.