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This collection of essays examines the question of theory from the perspective of the history of chemistry.
From the isolation and development of the first alkaloids with morphine that relieved pain within the home and on the battlefield, to the widespread use of nostrums and the addiction crisis that ensued, to the dissemination of drugs by what became known as Big Pharma after the World Wars;
Hermann Kopp (1817-1892) is best remembered today as a historian of chemistry, but during his lifetime he was one of the most eminent chemists of his day, and one of the earliest pioneers of physical chemistry.
This book traces the global chemical history of cannabidiol (CBD), which is a compound that originates partially from hemp (the fiber), marijuana (the popularized term for medicinal/recreational use), and cannabis (the species sativa).
This sequel to A Prehistory of Polymer Science begins with the Faraday Discussion of 1935 on Polymerization. Patterson then examines the remarkable rise and establishment of polymer science after 1935 from the perspective of the emergence of strong intellectual leaders.
Historically, the reaction was used in chemical analysis and to highlight the nature of chemical reactions, the laws of chemistry, models and theories of chemistry, chemical nomenclature, mathematics and data analysis, and instrumentation, which are important ingredients of what one might call the nature of chemistry.
In this brief, Mary Virginia Orna details the history of color from the chemical point of view. Beginning with the first recorded uses of color and ending in the development of our modern chemical industry, this rich, yet concise exposition shows us how color pervades every aspect of our lives.
This brief traces the story of one of our most common medicines - aspirin. Starting at the beginning of the twentieth century, the authors explain the use of aspirin during the First World War, the development of competition drugs such as ibuprofen during the interwar years, and the application of aspirin to heart disease in the 1950s and 1960s.
Following an introduction and bibliography of Scheele's published works, the author analyses Scheele's publications paragraph by paragraph, explaining the procedures and the results in modern terms, and summarising and elucidating Scheele's conclusions.
In this brief, renowned inorganic chemist Jay Labinger tracks the development of his field from a forgotten specialism to the establishment of an independent, intellectually viable discipline.
This book explores the lively chemistry culture that arose during the 17th century in Colonial New England.
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 Hideki Shirakawa, Alan MacDiarmid, and Alan Heeger for this pioneering research, the award citation reading "for the discovery and development of electrically conductive polymers." Because of this, most incorrectly view polyacetylene, as well as conducting polymers in general, to originate in the 1970s.In this work, the author examines the polymerization of acetylene from early thermal polymerization studies to the ultimate production of the fully conjugated polyacetylene. Although true polyacetylene was not successfully produced until the 1950s by Giulio Natta, the polymerization of acetylene dates back to 1866 with the work of Marcellin Berthelot. These initial efforts were continued by a range of scientists to produce a polymeric material collectively given the name cuprene in 1900 by Paul Sabatier. Between the initial cuprene studies and the production of true polyacetylene, two related materials were also studied, usually referred to as polyenes and polyvinylenes. Although both of these materials could be thought of as forms of polyacetylene, neither was actually generated from the direct polymerization of acetylene. Readers will gain insight into the fact that polyacetylene and conducting organic polymers have a much longer history than commonly believed and involved the work of a significant number of Nobel Laureates.
Particular attention is given to his pioneering work on the rare earth elements, including the discovery of four new elements, which allowed him to develop new materials, to invent new useful devices and to establish major industries.
In this Brief, Joe Jeffers uncovers the life and works of two-time Nobel Laureate Frederick Sanger. Highlighting Sanger's remarkable career, Jeffers describes Sanger's later change in research direction to investigate deoxyribonucleic acids (DNA), work for which Sanger also received the Nobel Prize jointly with Paul Berg and Walter Gilbert in 1980.
A scientist of great merit and a role model to women scientists of all disciplines, the life of Marjory Stephenson is of interest to biochemists, molecular biologists, historians of the chemical and biological sciences, and women scientists of all generations.
This brief offers a novel vision of the city of Florence, tracing the development of chemistry via the biographies of its most illustrious chemists.
The organic chemists of Russia during the pre-revolutionary period included some of the most creative and talented chemists of the nineteenth and early twentieth centuries.
More than 80 personalities, in or from Germany, that over the centuries have shaped the development of analytical chemistry are introduced by brief biographies. These accounts go beyond summarising key biographical information and outline the individual's contributions to analytical chemistry.
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