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Glass production is thought to date to ~2500 BC and had found numerous uses by the height of the Roman Empire. Yet the modern view of glass-based chemical apparatus (beakers, flasks, stills, etc.) was quite limited due to a lack of glass durability under rapid temperature changes and chemical attack. This “brief” gives an overview of the history and chemistry of glass technology from its origins in antiquity to its dramatic expansion in the 13th century, concluding with its impact on society in general, particularly its effect on chemical practices.
This Brief presents for the first time a detailed historical overview of the development of acetylene polymers, beginning with the initial discovery of acetylene in 1836 and continuing up through the 2000 Nobel Prize in Chemistry. The polymerization of acetylene is most commonly associated with polyacetylene, which was found to be conductive when treated with oxidizing agents such as Br2 or I2 in the mid‐to‐late 1970s. In fact, under the right conditions, oxidized polyacetylenes can exhibit conductivities into the metallic regime, thus providing the first example of an organic polymer exhibiting metallic conductivity. As a consequence, the 2000 Nobel Prize in Chemistry was awarded to Hid...
Chemistry is intimately involved in the development of the oldest known civilizations, resulting in a range of chemical technologies that not only continue to be part of modern civilized societies, but are so commonplace that it would be hard to imagine life without them. Such chemical technology has a very long and rich history, in some cases dating back to as early as 20,000 BCE. "Chemistry Technology in Antiquity" aims to present the discovery, development, and early history of a range of such chemical technologies, with the added goal of including a number of smaller subjects often ignored in the presentation of early chemical technology. While the book does not aim to be a comprehensive coverage of the full range of chemical technologies practiced during antiquity, it provides a feel and appreciation for both the deep history involved with these topics, as well as the complexity of the chemical processes that were being utilized at such a very early time period.
Ethyl alcohol, or ethanol, is one of the most ubiquitous chemical compounds in the history of the chemical sciences. The generation of alcohol via fermentation is also one of the oldest forms of chemical technology, with the production of fermented beverages such as mead, beer and wine predating the smelting of metals. By the 12th century, the ability to isolate alcohol from wine had moved this chemical species from a simple component of alcoholic beverages to both a new medicine and a powerful new solvent. Of course, this also began the long tradition of production of liqueurs and strong spirits for consumption. The use of alcohol as a fuel, however, did not occur until significantly later periods. This volume presents a general overview of the early history and chemistry of alcohol production and isolation, as well as a discussion of its early uses in both the chemical arts and medicine.
Glass production is thought to date to ~2500 BC and had found numerous uses by the height of the Roman Empire. Yet the modern view of glass-based chemical apparatus (beakers, flasks, stills, etc.) was quite limited due to a lack of glass durability under rapid temperature changes and chemical attack. This “brief” gives an overview of the history and chemistry of glass technology from its origins in antiquity to its dramatic expansion in the 13th century, concluding with its impact on society in general, particularly its effect on chemical practices.
A history of Leo Baekeland and his Bakelite synthesis--the starting point of the Age of Plastics
From the rise of chemical technology in antiquity to the present day, Igniting the Chemical Ring of Fire tracks the development of professional chemistry communities in the countries of the Pacific Rim. Critical in this process was the development of local education and training in chemistry. The doctorate in chemistry is generally regarded as coming into existence in early 19th century Germany, with the model spreading globally as time passed. In early years it was common for international chemistry scholars to train at the ranking German or English universities before returning to their home countries to seed a local version of the doctorate. However, little has been formally written about this process outside of Europe.Representing a first in the field for countries of the Pacific Rim, this book documents the detailed history of chemical communities in ten countries from a team of internationally renowned historians. Providing insights into how and when these countries initiated local chemistry PhD programs and became independent chemical entities, Igniting the Chemical Ring of Fire shows that there is no single path to development.
Highlighting its broad, multidisciplinary nature, this volume presents new research and applications in the field of archaeological chemistry, which focuses on the application of chemical techniques to the study of the material remains of the cultures of historical or prehistorical peoples. Consisting of 18 chapters written by a diverse collection of international authors, this volume highlights new research in archaeological chemistry, and shows how the field combines aspects of analytical chemistry, history, archaeology, and materials science. Current efforts to include archaeological chemistry in science education are also presented. As this book utilizes current scientific advances to better understand our past, it will be of broad general interest to the chemical, archaeological, and historical communities.
Many significant fundamental concepts and practical applications have developed since the publication of the best-selling second edition of the Handbook of Conducting Polymers. Now divided into two books, the third edition continues to retain the excellent expertise of the editors and world-renowned contributors while providing superior coverage of
Learn how recent advances are fueling new possibilities in textiles, optics, electronics, and biomedicine! As the field of conjugated, electrically conducting, and electroactive polymers has grown, the Handbook of Conducting Polymers has been there to document and celebrate these changes along the way. Now split into two vo