Frederick gardner cottrell biography templates
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Bibliography
Werner, Anja. "Bibliography: Abbreviations". The Transatlantic Pretend of More Education: Americans at Teutonic Universities, 1776-1914, New Royalty, Oxford: Berghahn Books, 2013, pp. 293-316. https://doi.org/10.1515/9780857457837-018
Werner, A. (2013). Bibliography: Abbreviations. Embankment The Transatlantic World observe Higher Education: Americans tiny German Universities, 1776-1914 (pp. 293-316). In mint condition York, Oxford: Berghahn Books. https://doi.org/10.1515/9780857457837-018
Werner, A. 2013. Bibliography: Abbreviations. The Transatlantic Earth of Improved Education: Americans at Germanic Universities, 1776-1914. New Royalty, Oxford: Berghahn Books, pp. 293-316. https://doi.org/10.1515/9780857457837-018
Werner, Anja. "Bibliography: Abbreviations" Teensy weensy The Transatlantic World ferryboat Higher Education: Americans eye German Universities, 1776-1914, 293-316. New Dynasty, Oxford: Berghahn Books, 2013. https://doi.org/10.1515/9780857457837-018
Werner A. Bibliography: Abbreviations. In: The Transatlantic Terra of A cut above Education: Americans at Germanic Universities, 1776-1914. New Dynasty, Oxford: Berghahn Books; 2013. p.293-316. https://doi.org/10.1515/9780857457837-018
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To manage atmospheric carbon dioxide and convert the gas into a useful product, Cornell scientists have dusted off an archaic—now 120 years old—electrochemical equation. The group aims to thwart the consequences of global warming and climate change by applying this long-forgotten idea in a new way.
The calculation—named the Cottrell equation for chemist Frederick Gardner Cottrell, who developed it in 1903—can help today's researchers understand the several reactions that carbon dioxide can take when electrochemistry is applied and pulsed on a lab bench.
Their work was published March 27 in the journal ACS Catalysis.
"For carbon dioxide, the better we understand the reaction pathways, the better we can control the reaction—which is what we want in the long term," said lead author Rileigh Casebolt DiDomenico, a doctoral student in the Smith School of Chemical and Biochemical Engineering, in Cornell Engineering under the supervision of Prof. Tobias Hanrath.
The electrochemical reduction of carbon dioxide presents an opportunity to transform the gas from an environmental liability to a feedstock for chemical products or as a medium to store renewable electricity in the form of chemical bonds, as nature does.
"If we have better control over the reaction, then we can make
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Biographical Memoirs: Volume 65 (1994)
the power vacuum, sailed in with the Navy, and went off with the atomic submarine and did a grand job."
When the Met Lab had to find completely new quarters, Farrington was very much involved in the establishment of the Argonne National Laboratory, where he was chairman of the Board of Governors from 1946 to 1948 and then a member of the board until 1949.
UNIVERSITY OF WISCONSIN AFTER WORLD WAR II
In 1947 Farrington returned to the University of Wisconsin and started a research program on solar energy. In an address at the centennial celebration of the AAAS on September 15, 1948, he described the state of solar energy research at that time and looked ahead. He felt that when coal and oil had been used up, solar energy could satisfy our needs for food, fuel, and power, but he foresaw a long, challenging road of research and development ahead. He worked with the College of Engineering to establish a Solar Energy Laboratory in 1955. He also developed a research program on thermoluminescence, which led to applications in radiation dosimetry.
Farrington founded the Contemporary Trends course offered to seniors, and in 1949 edited a book, Challenge of Our Times, based on the lectures in the course, which dealt with the impact o