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Overlooked, even despised by historians of chemistry for many years, the genre of biography has enjoyed a revival since the beginning of this century. The key to its renaissance is the use of the biographical form to provide a contextual analysis of important themes in contrast to the uncritical, almost hagiographic, lives of chemists written in the earlier part of the twentieth century. Bringing together the contributions of scholars active in several different countries, Perspectives on Chemical Biography in the 21st Century leads the reader through emerging questions around sources, and the generic problems faced by authors of biographies, before moving on to discuss aspects more related with physical, theoretical and inorganic chemistry, and facets of 19th century chemistry. In contrast to the letters and diaries of earlier chemists, we are now faced with scientists who communicate by telephone and email, and compose their documents on computers. Are we facing a modern equivalent of the destruction of the Library of Alexandria where all our sources are wiped out electronically?
The essential, cornerstone book of modern environmentalism is now offered in a handsome 40th anniversary edition which features a new Introduction by activist Terry Tempest Williams and a new Afterword by Carson biographer Linda Lear.
Overlooked, even despised by historians of chemistry for many years, the genre of biography has enjoyed a revival since the beginning of this century. The key to its renaissance is the use of the biographical form to provide a contextual analysis of important themes in contrast to the uncritical, almost hagiographic, lives of chemists written in the earlier part of the twentieth century. Bringing together the contributions of scholars active in several different countries, Perspectives on Chemical Biography in the 21st Century leads the reader through emerging questions around sources, and the generic problems faced by authors of biographies, before moving on to discuss aspects more related with physical, theoretical and inorganic chemistry, and facets of 19th century chemistry. In contrast to the letters and diaries of earlier chemists, we are now faced with scientists who communicate by telephone and email, and compose their documents on computers. Are we facing a modern equivalent of the destruction of the Library of Alexandria where all our sources are wiped out electronically?
History of Universities XXXIV/1 contains the customary mix of learned articles which makes this publication an indispensable tool for the historian of higher education. This volume offers a global history of research education in the ninteenth and twentieth centuries.
This is an open access title available under the terms of a CC BY-NC-ND 4.0 International License. It is free to read at Oxford Scholarship Online and offered as a free PDF download from OUP and selected open access locations. History of Universities XXXIV/1 contains the customary mix of learned articles which makes this publication an indispensable tool for the historian of higher education. This volume offers a global history of research education in the ninteenth and twentieth centuries. This volume compares the training of scholars in different disciplines and countries across the globe in a century that laid the foundation for modern academia. The articles in this volume examine the different training "instruments" and methods for text-based disciplines (history and philology), laboratory sciences (such as chemistry), theoretical sciences (mathematics, for instance), fieldwork disciplines (linguistics and paleontology), and clinical science (medicine). They consider countries or societies in Europe, North America, South and East Asia, and Latin America, and analyze the roles of the state, nationalism and internationalism that shaped the institutions and policies for research education. Some of these articles are comparative, while the others are in-depth case studies of individual disciplines in specific countries at different stages of scientific developments. The introduction and conclusion of this volume bring together the important themes that run across the article and make necessary supplements to present a synthetic picture of the global history of research education.
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. FEATURES Discusses 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.
Fruits and vegetables, commonly termed as "fresh produce" are an important component of the human diet, as these provide various beneficial and essential health-related compounds. Nevertheless, fresh produce is susceptible to postharvest deterioration and decay along with loss of certain nutrients due to innapropriate storage conditions and lack of standard postharvest technologies. In addition, the short shelf life is considered another major constraint that must be extended after harvest to ensure a wider availability window of the fresh produce for consumers. From this perspective, the use of postharvest approaches is considered imperative to reduce the deterioration of harvested fresh produce in order to extend their storage and shelf life potential on a sustainable basis. Sustainable Postharvest Technologies for Fruits and Vegetables covers various aspects of postharvest technologies with major developments over the recent past and provides a way forward for the future. The sustainable use of various technologies and elicitors could be adapted from farm to fork in order to conserve the eating quality of fresh produce. Therefore, this book covers various sustainable postharvest treatments and technologies that could be considered highly effective for the delay of postharvest senescence and deterioration. Among the various technologies, the use of preharvest treatments, controlled atmosphere, dynamic control atmosphere, modified atmosphere and hypobaric conditions has tremendous potential for the fresh fruits and vegetables industry. In the same way, cold plasma, pulsed light, ultraviolet light, ultrasound technology, nanoemulsions, nano-packaging, electrolyzed water, high pressure processing, ozone gas, irradiations, edible coatings, vacuum packaging and active packaging with slow releasing compounds along with nanotechnology are highly practicable and possesses tremendous potential to be used in the maintenance of overall eating quality and storage life extension of the fresh produce. Key Features: Overviews the major factors affecting postharvest physiology and shelf life potential of fresh produce. Focuses on major sustainable technologies having the potential to maintain postharvest quality and extend shelf life of fruits and vegetables. Describes practical and recent advances of various approaches indispensable for the maintenance of overall eating quality and food safety attainment for fresh produce on a sustainable basis. Covers how quality maintenance and shelf life rely on preharvest practices, nonthermal treatments, storage atmospheres, packaging materials, active packaging, edible packaging, coating application techniques, nanotechnology and ecofriendly plant extracts and natural antagonists.
This volume, with contributions from leading international experts, reports on the need to produce high quality food whilst satisfying environmental concerns. Including material on natural products, modes of action and metabolism, it covers all the key areas in pesticide chemistry and related activities. The contents outline the developments that have taken place in approaches to crop protection and our ability to develop complex, environmentally acceptable strategies for weed, pest and disease control.
This volume details the theories, mechanisms, technologies and trends for solving qualitative and quantitative problems in diverse areas of analytical research - emphasizing physicochemical principles. It focuses on deriving simpler and more extensive chemiluminescence (CL) detectors reflecting miniaturization trends, including narrow-bone and capillary liquid chromatography versus high-performance liquid chromatography and miniaturized high-performance thin-layer chromatography. It also covers the sensitivity, selectivity, wide detection range and versatility of CL-based methodologies.
Agriculture is one of the oldest and most global human enterprises, and as the world struggles with sustainable practices and policies, agricultural chemistry has a clear role to play. This book highlights the ways in which science in agriculture is helping to achieve global sustainability in the twenty- first century, and demonstrates that this science can and should be a leading contributor in discussions on environmental science and chemistry. The four drivers of this subject are presented, those being economic, environmental, regulatory and scientific, and help showcase agricultural chemistry as a dynamic subject that is contributing to this necessity of global sustainability in the twenty-first century. Features: Explains the necessary role of agricultural chemistry in the sustainability of the world in the 21st century Recognizes past practices and future potential, guided by global demand and the four drivers: economic, scientific, regulatory and environmental Presents a much needed multi-dimensional approach to the subject Demonstrates that agricultural chemistries can and should be leading contributors in discussion on environmental science and chemistry Highlights new products, processes, applications and developments in green chemistry, which demonstrates how agriculture is adapting in the new age