GSK The complexities of assay development and challenges associated with validating and transferring assays into HTS are well-known bottlenecks in the drug discovery process. Industry experts from GSK and TTP Labtech will discuss how they have collaborated in order to address this with the application of a novel liquid handling technology, which can be utilised for both complex, multifactorial assay development experiments as well as large scale, high throughput, drug discovery screening.
His early professional years coincided with the establishment of physical chemistry as an important division of science. He established bridges from science to engineering, from both of these fields to industrial research, and from all of these to the creation of an American industry of scientific instruments.
Further, he established early a center for low-temperature research in the United States. Keenan of the Department of Mechanical Engineering at MIT, has been used in the design and operation of steam generating power plants worldwide.
Keyes was born in Kingston, Ontario, Canada, on June 24, In his early childhood he received private instruction from his parents, and he rejected Thesis chemistry inc cambridge ontario high school; he preferred spending his pre-college years in experimentation in his home.
His formal education was begun in college where he received a B. The National Academies Press. Keyes's doctoral thesis was in organic chemistry, but he also studied physical chemical research on bacterial metabolism.
After leaving Brown University he went to the Massachusetts Institute of Technology on a postdoctoral research appointment with Professor L. Gillespie and then, after one year, with Professor A. Noyes, who was then the dean of American physical chemists.
Noyes and Charles A. Kraus developed quartz-glass electric seals for mercury vapor lamps, and Keyes was employed as chief engineer for the Cooper-Yewett Electric Company during the years — Keyes began research on the measurements for equations of state of gases and liquids, that is, pressure-volume-temperature relations.
Keyes joined what was later to be known as the Chemical Warfare Service. By February he had organized a complete laboratory for research and testing in chemistry, physics, and bacteriology and oversaw the shipping of that laboratory to France.
In France the laboratory was located at Puteaux and was the only resource of its kind available to the American expeditionary forces in France. Keyes was cited by General Pershing for outstanding service, and he also received the Purple Heart.
In that same year Keyes became the director of the Physical Chemistry Laboratory and soon thereafter also took on the responsibility of the head of Page Share Cite Suggested Citation: He took a very active part in the development of the Eastman Laboratories, which was MIT's first building devoted to research and education in chemistry and physics.
Keyes's scientific investigations focused strongly, but far from entirely, on the thermodynamic properties of matter, predominately gases and liquid water. For example, in he coauthored a manuscript on the equation of state for methane.
The work had scientific interest in that measurements of pressure-volume-temperature relations lead to information about intermolecular forces, a connection early recognized by Keyes. As typical of so much of Keyes's work, this study of methane had an important practical purpose, that of extracting helium from natural gas.
Keyes formed early a laboratory in the United States devoted to low-temperature research. He and Collins described instrumentation for such research, including the famous Collins helium cryostat.
In an extensive series of studies Keyes and his coworkers, among them Leighton B. Collins, and Harold T. Gerry, made highly precise measurements on pressure-volume-temperature relations for a unit mass of liquid and gaseous water.
In addition, with Collins and Howard McMahon, he concentrated on the measurements of heat capacity and in particular the pressure variation of the enthalpy of steam, which is directly related to the Joule-Thomson coefficient and that in turn to molecular forces.
From these and related researches Keyes and J. The increased economies in steam generation due to the design of steam turbines based on accurate steam data have brought savings of millions of tons of coal per year. A related area of interest to Keyes was the study of the dielectric constant of gases as a function of temperature and density.
One of his students here was John L. Oncley, who later became a well known biophysical chemist, and the other graduate student was John G. Kirkwood, who later became one of the leading theoretical physical chemists in the world.Keyes was born in Kingston, Ontario, Canada, on June 24, In his early childhood he received private in- doctoral thesis was in organic chemistry, but he also stud- Scientific Co., Inc., an industrial consulting firm in Cam-bridge.
In Professor Keyes married Gabriel Alice Bowers of Paris, France. Mrs. Keyes was related to the. Meet your Liberal Member of Parliament. Gary Anandasangaree is the Member of Parliament for the riding of Scarborough-Rouge Park, and Parliamentary Secretary to the Minister of Heritage and Multiculturalism (Multiculturalism).
REFERENCES Anirudhan, T.S. () -Studies on the nutrient Chemistry of a tropical estuary. Ph.D. Thesis, Cochin University of Science and Technology, Cochin, India.
I have designed and taught a new course at the University of Connecticut called “The Physics of Music”, and which satisfies the university requirement for a science or technology course.
The 12th International Symposium on Macrocyclic and Supramolecular Chemistry will be run in in conjunction with the Royal Society of Chemistry's biennial ISACS: Challenges in Organic Materials & Supramolecular Chemistry meeting and will take place in Cambridge.
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