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Irving Langmuir

 
Scientist: Irving Langmuir
 
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American chemist (1881–1957)

Langmuir, who was born in Brooklyn, New York, studied metallurgical engineering at the Columbia School of Mines, New York. He then went on to do postgraduate work under Walther Nernst at Göttingen, where he obtained his PhD in 1906. On his return to America he taught for a short time at the Stevens Institute of Technology, New Jersey, before joining the research laboratory of the General Electric Company (GEC), Schenectady, New York, (1909) where he remained until his retirement in 1950.

Langmuir was an extremely original and productive industrial physical chemist. In 1913 he achieved a major breakthrough in the design of electric light bulbs. The vacuum tubes (tungsten bulbs) then in use contained an incandescent tungsten wire that tended to break and also deposited a black film inside the bulb. Most research to rectify this was concentrating on improving the quality of the vacuum in the bulb. Langmuir saw that the same effect could be obtained more cheaply and efficiently by filling the bulb with an inert gas. After much experimentation he found that a mixture of nitrogen and argon did not attack the tungsten filament and eliminated the oxidation on the bulb.

In 1919 Langmuir tried to develop the theory of the electron structure of the atom published by Gilbert Lewis in 1916. Lewis had only dealt with the first two rows of the periodic table and Langmuir tried to extend it. He proposed that electrons tend to surround the nucleus in successive layers of 2, 8, 8, 18, 18, and 32 electrons respectively. Then using similar arguments to those of Lewis he went on to try and explain the basic facts of chemical combination. It was not until after the development of quantum theory in the 1920s that a definitive account could be provided by Linus Pauling.

Langmuir also developed a vacuum pump, constructed a hydrogen blowtorch (1927) for welding metals at high temperatures, and worked on the production of artificial rain with Vincent Schaefer in 1947. In his research career he conducted a prolonged investigation into the chemistry of surfaces, tackling such problems as how and why certain substances spread on water and how gases interact with metal surfaces. Langmuir introduced the idea of adsorption of a single layer of atoms (a monolayer) on a surface and the theory that surface reactions (as in heterogeneous catalysis) take place between adsorbed molecules or atoms. The Langmuir isotherm is an expression relating the amount of adsorption on a surface with the gas pressure (at constant temperature). He was awarded the Nobel Prize for chemistry in 1932 for his research into surface reactions.

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Biography: Irving Langmuir
 
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The chemist Irving Langmuir (1881-1957) was one of the best of the industrial scientists in the United States who helped establish scientific research as a necessary industrial activity.

Irving Langmuir was born in Brooklyn, N. Y., where his father was in the insurance business. When he was 11 years old, his family moved to France, where he attended elementary school for a time. In 1895 he returned to the United States and attended high school in New York City. In 1903 he took a degree in metallurgical engineering from the Columbia University School of Mines. Like many scientists of his generation, he went to Germany for postgraduate work; he took a doctorate from the University of Göttingen in 1906. Returning to the United States, he became an instructor of chemistry at the Stevens Institute of Technology in New Jersey.

In 1909 Langmuir went to work for the General Electric Company in Schenectady, N. Y. He remained there until his retirement in 1950 and continued as a consultant until his death in 1957. General Electric was one of the first large manufacturing firms in the United States to invest in industrial research, and Langmuir soon became one of the laboratory's brightest stars. Indeed, an associate once said of him, "Langmuir is the nearest thing to a thinking machine that I know - you put in the facts and out roll the conclusions." However, he was also an energetic hiker and mountain climber, as well as an enthusiastic private pilot.

During his years at General Electric, Langmuir was responsible for the research that led to the gas-filled incandescent lamp, the high-vacuum power tube, and atomic hydrogen welding, among other advances. He worked for many years on electron emissions and gaseous discharges, and he also developed experimental techniques for the study of proteins that were widely copied by biochemists and biophysicists. His most famous research dealt with oil films on water and opened up the new field of surface chemistry. In 1932 he was awarded the Nobel Prize in chemistry. As a result of his work for the military during and after World War II, he supported the idea of weather modification by seeding clouds with dry ice or silver iodide to produce rain and snow.

Further Reading

There is no first-rate biography of Langmuir, although he is the subject of several works: John Clarence Hylander, Irving Langmuir: American Scientist (1935); Bernard Jaffe, Irving Langmuir: Crucibles - The Story of Chemistry (1948); and Albert Rosenfeld, The Quintessence of Irving Langmuir (1966). A sketch of his life is in Eduard Farber, Nobel Prize Winners in Chemistry, 1901-1950 (1953). Also valuable are John T. Broderick, Forty Years with General Electric (1929), and especially Kendall Birr, Pioneering in Industrial Research: The Story of the General Electric Research Laboratory (1957). For one aspect of Langmuir's work see Arthur A. Bright, The Electric-Lamp Industry (1949).

 
Britannica Concise Encyclopedia: Irving Langmuir
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(born Jan. 31, 1881, Brooklyn, N.Y., N.Y., U.S. — died Aug. 16, 1957, Falmouth, Mass.) U.S. physical chemist. He received a Ph.D. from the University of Göttingen, Ger. As a researcher for General Electric (1909 – 50), he investigated electrical discharges in gases, electron emission, and the high-temperature surface chemistry of tungsten, making possible a great extension in the life of tungsten-filament lightbulbs. He developed a vacuum pump and the high-vacuum tubes used in radio broadcasting. He formulated theories of atomic structure and chemical bond formation, introducing the term covalence. He received a Nobel Prize in 1932.

For more information on Irving Langmuir, visit Britannica.com.

 
Columbia Encyclopedia: Irving Langmuir
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Langmuir, Irving (lăng'myūr) , 1881–1957, American chemist, b. Brooklyn, N.Y. Associated (1909–50) with the research laboratory of the General Electric Company, he introduced atomic-hydrogen welding, invented a gas-filled tungsten lamp, and by his work on the high vacuum contributed greatly to the development of the radio vacuum tube. He extended the work of Gilbert Lewis on electron bonding, evolving the Lewis-Langmuir theory of atomic structure. In his research on surface tension and surface chemistry he developed a new technique (employing monolayers, i.e., layers of molecules one molecule thick) for the study of molecules, which has applications in research on microorganisms and toxins and in other studies contributing to advances in immunology. For his contributions in surface chemistry he received the 1932 Nobel Prize in Chemistry. It was Langmuir who discovered that the introduction of particles of dry ice and iodide into a cloud of low temperature containing sufficient moisture in tiny droplets triggered a chain reaction producing rain or snow, depending on the condition of the weather.

Bibliography

See his works, ed. by C. G. Suits and H. E. Way (12 vol., 1960–62); study by A. Rosenfeld (1966).

 
Wikipedia: Irving Langmuir
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Irving Langmuir

Born 31 January 1881(1881-01-31)
Brooklyn, New York
Died 16 August 1957 (aged 76)
Woods Hole, Massachusetts
Nationality United States
Fields Chemistry
Alma mater Columbia University
University of Göttingen
Doctoral advisor Walther Nernst
Known for Inventor of the high-vacuum tube
Notable awards Nobel Prize in Chemistry (1932)
Perkin Medal (1928)

Irving Langmuir (31 January 1881 – 16 August 1957) was an American chemist and physicist. His most noted publication was the famous 1919 article "The Arrangement of Electrons in Atoms and Molecules" in which, building on Gilbert N. Lewis's cubical atom theory and Walther Kossel's chemical bonding theory, he outlined his "concentric theory of atomic structure".[1] Langmuir became embroiled in a priority dispute with Lewis over this work; Langmuir's presentation skills were largely responsible for the popularization of the theory, although the credit for the theory itself belongs mostly to Lewis.[2] While at General Electric, from 1909-1950, Langmuir advanced several basic fields of physics and chemistry, invented the gas-filled incandescent lamp, the hydrogen welding technique, and was awarded the 1932 Nobel Prize in Chemistry for his work in surface chemistry. He was the first industrial chemist to become a Nobel laureate. The Langmuir Laboratory for Atmospheric Research near Socorro, New Mexico was named in his honor as was the American Chemical Society journal for Surface Science, called Langmuir.

Contents

Biography

Early years

Irving Langmuir was born in Brooklyn, New York on January 31, 1881. He was the third child of four of Charles Langmuir and Sadie, née Comings. During his childhood, Langmuir's parents encouraged him to carefully observe nature and to keep a detailed record of his various observations. When Irving was eleven, it was discovered that he had poor eyesight. When this problem was corrected, details that had previously eluded him were revealed, and his interest in the complications of nature was heightened.

During his childhood, Langmuir was influenced by his older brother, Arthur Langmuir. Arthur was a research chemist who encouraged Irving to be curious about nature and how things work. Arthur helped Irving set up his first chemistry lab in the corner of his bedroom, and he was content to answer the myriad of questions that Irving would pose. Langmuir's hobbies included mountaineering, skiing, piloting his own plane, and classical music. In addition to his professional interest in the politics of atomic energy, he was concerned about wilderness conservation.

Education

Langmuir attended his early education at various schools and institutes in America and Paris (1892-1895). Langmuir graduated high school from Chestnut Hill Academy,(1898)an elite private school located in the affluent Chestnut Hill area in Philadelphia. He graduated with a Bachelor of Science degree. in metallurgical engineering from the Columbia University School of Mines (the first mining and metallurgy school in the U.S., established,1864 and presently known as Fu Foundation School of Engineering and Applied Science) in 1903. He earned his Ph.D. degree in 1906 under Nobel laureate Walther Nernst in Göttingen, for research done using the "Nernst glower", an electric lamp invented by Nernst. His doctoral thesis was entitled “On the Partial Recombination of Dissolved Gases During Cooling.” He later did postgraduate work in chemistry. Langmuir then taught at Stevens Institute of Technology in Hoboken, New Jersey, until 1909, when he began working at the General Electric research laboratory (Schenectady, New York). In 1912, he married Marion Mersereau.

Research

His initial contributions to science came from his study of light bulbs (a continuation of his Ph.D. work). His first major development was the improvement of the diffusion pump, which ultimately led to the invention of the high-vacuum tube. A year later, he and colleague Lewi Tonks discovered that the lifetime of a tungsten filament was greatly lengthened by filling the bulb with an inert gas, such as argon. He also discovered that twisting the filament into a tight coil improved its efficiency. These were important developments in the history of the incandescent light bulb. His work in surface chemistry began at this point, when he discovered that molecular hydrogen introduced into a tungsten-filament bulb dissociated into atomic hydrogen and formed a layer one atom thick on the surface of the bulb.[3]

His assistant in vacuum tube research was his cousin William Comings White.[4]

In 1917, he published a paper on the chemistry of oil films[5] that later became the basis for the award of the 1932 Nobel Prize in chemistry. Langmuir theorized that oils consisting of an aliphatic chain with a hydrophilic end group (perhaps an alcohol or acid) were oriented as a film one molecule thick upon the surface of water, with the hydrophilic group down in the water and the hydrophobic chains clumped together on the surface. The thickness of the film could be easily determined from the known volume and area of the oil, which allowed investigation of the molecular configuration before spectroscopic techniques were available.[6]

Irving Langmuir - chemist and physicist

As he continued to study filaments in vacuum and different gas environments, he began to study the emission of charged particles from hot filaments (thermionic emission). He was one of the first scientists to work with plasmas and was the first to call these ionized gases by that name, because they reminded him of blood plasma.[7] Langmuir and Tonks discovered electron density waves in plasmas that are now known as Langmuir waves.

He introduced the concept of electron temperature and in 1924 invented the diagnostic method for measuring both temperature and density with an electrostatic probe, now called a Langmuir probe and commonly used in plasma physics. The current of a biased probe tip is measured as a function of bias voltage to determine the local plasma temperature and density. He also discovered atomic hydrogen, which he put to use by inventing the atomic hydrogen welding process; the first plasma weld ever made. Plasma welding has since been developed into gas tungsten arc welding.

Later years

Following World War I Langmuir contributed to atomic theory and the understanding of atomic structure by defining the modern concept of valence shells and isotopes.

He joined Katharine B. Blodgett to study thin films and surface adsorption. They introduced the concept of a monolayer (a layer of material one molecule thick) and the two-dimensional physics which describe such a surface. In 1932 he received the Nobel Prize for Chemistry "for his discoveries and investigations in surface chemistry." In 1938, Langmuir's scientific interests began to turn to atmospheric science and meteorology. One of his first ventures, although tangentially related, was a refutation of the claim of entomologist Charles H. T. Townsend that the deer botfly flew at speeds in excess of 800 miles per hour. Langmuir estimated the fly's true speed at 25 miles per hour.

After observing windrows of drifting seaweed in the Sargasso Sea he discovered a wind-driven surface circulation in the sea. It is now called the Langmuir circulation.

Langmuir's house in Schenectady

During World War II, Langmuir worked on improving naval sonar for submarine detection, and later to develop protective smoke screens and methods for deicing aircraft wings. This research led him to theorize that the introduction of dry ice and iodide into a sufficiently moist cloud of low temperature could induce precipitation (cloud seeding); though in frequent practice, particularly in Australia and the People's Republic of China, the efficiency of this technique remains controversial today.

In 1953 Langmuir coined the term "pathological science", describing research conducted with accordance to the scientific method, but tainted by unconscious bias or subjective effects. This is in contrast to pseudoscience, which has no pretense of following the scientific method. In his original speech, he presented ESP and flying saucers as examples of pathological science; since then, the label has been applied to polywater and cold fusion.

His house in Schenectady, was designated a National Historic Landmark in 1976.

Personal life

Langmuir was married to Marion Mersereau in 1912 with whom he adopted two children: Kenneth and Barbara. After a short illness, he died in Woods Hole, Massachusetts from a heart attack in 1957. His obituary ran on the front page of The New York Times.[8]

Patents

See also

References

  1. ^ Langmuir, I. (1919). "The Arrangement of Electrons in Atoms and Molecules", Journal of the American Chemical Society. Vol. 41, No. 6, 868.
  2. ^ Patrick Coffey, Cathedrals of Science: The Personalities and Rivalries That Made Modern Chemistry, Oxford University Press, 2008: 134-146
  3. ^ Coffey, Cathedrals of Science: 64-70
  4. ^ Anderson, J.M., Power Engineering Review, IEEE, Volume 22, Issue 3, March 2002 Page(s):4 - 4
  5. ^ Irving Langmuir, "The Constitution and Fundamental Properties of Solids and Liquids. II," Journal of the American Chemical Society 39 (1917): 1848-1906.
  6. ^ Coffey, Cathedrals of Science: 128-131
  7. ^ What is Plasma? - Coalition for Plasma Science
  8. ^ Staff writers (17 August 1957). "Dr. Irving Langmuir Dies at 76; Winner of Nobel Chemistry Prize". The New York Times. http://select.nytimes.com/gst/abstract.html?res=F20A11FC385A177B93C5A81783D85F438585F9. Retrieved on 2008-10-20. 

Further reading

  • Patrick Coffey, Cathedrals of Science: The Personalities and Rivalries That Made Modern Chemistry, Oxford University Press, 2008. ISBN 978-0-19-532134-0

External links


v  d  e
Nobel Laureates in Chemistry

Theodor Svedberg (1926) · Heinrich Wieland (1927) · Adolf Windaus (1928) · Arthur Harden / Hans von Euler-Chelpin (1929) · Hans Fischer (1930) · Carl Bosch / Friedrich Bergius (1931) · Irving Langmuir (1932) · Harold Urey (1934) · Frédéric Joliot-Curie / Irène Joliot-Curie (1935) · Peter Debye (1936) · Walter Haworth / Paul Karrer (1937) · Richard Kuhn (1938) · Adolf Butenandt / Leopold Ružička (1939) · George de Hevesy (1943) · Otto Hahn (1944) · Artturi Virtanen (1945) · James B. Sumner / John Northrop / Wendell Meredith Stanley (1946) · Robert Robinson (1947) · Arne Tiselius (1948) · William Giauque (1949) · Otto Diels / Kurt Alder (1950)
Complete roster · 1901–1925 · 1926–1950 · 1951–1975 · 1976–2000 · 2001–present

This entry is from Wikipedia, the leading user-contributed encyclopedia. It may not have been reviewed by professional editors (see full disclaimer)

 
 

 

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Scientist. A Dictionary of Scientists. Copyright © Market House Books Ltd 1993, 1999, 2003. All rights reserved.  Read more
Biography. © 2006 through a partnership of Answers Corporation. All rights reserved.  Read more
Britannica Concise Encyclopedia. Britannica Concise Encyclopedia. © 2006 Encyclopædia Britannica, Inc. All rights reserved.  Read more
Columbia Encyclopedia. The Columbia Electronic Encyclopedia, Sixth Edition Copyright © 2003, Columbia University Press. Licensed from Columbia University Press. All rights reserved. www.cc.columbia.edu/cu/cup/  Read more
Wikipedia. This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Irving Langmuir" Read more

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