Chemist Linus Pauling; born in Portland, Ore. After taking his Ph.D. at the California Institute of Technology (1925) and then two years of study abroad, he returned to that institution for most of his professional career (1927–63).
Details of those years are as follows: At the California Institute of Technology his advisor was Roscoe Dickinson, whose area of expertise was X-ray crystallography. At this time Dickinson was investigating the crystal structure of various minerals. In his work with Dickinson, Pauling displayed what was to become his standard method of attacking a problem. According to Dr. Edward Hughes, “He would guess what the structure might be like, and then he would arrange it to fit into the other data. . . he could then calculate the intensities he would get from that structure and then compare it with the observed ones.” For the rest of his career Pauling was criticized for using too large an amount of intuition in his work and not always having complete data to back up what he wrote. As well as doing his research work, Pauling was taking courses and serving as a teaching assistant in the freshman chemistry course. He received his Ph. D. in chemistry with high honors in the June of 1925. His dissertation comprised the various papers he had already published on the crystal structure of different minerals.
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A year later, when he was 25, he received a Guggenheim fellowship to study at the University of Munich under Arnold Sommerfeld, a theoretical physicist. Here he began work with quantum mechanics. In January of 1927 he published “The Theoretical Prediction of the Physical Properties of Many Electron Atoms and Ions; Mole Refraction, Diamagnetic Susceptibility, and Extension in Space” in which he applied the concept of quantum mechanics to chemical bonding. In 1928 he published six principles to decide the structure of complicated crystals. This bothered Bragg even more since they did not all originate with Pauling. Actually, according to Horach Judson, “Pauling clarified them, codified them, demonstrated their generality and power.” However, Bragg was spreading stories in England about Pauling’s “thievery” and lack of professional ethics.
At this time Pauling took an assistant professorship in chemistry at Cal. Tech. In 1928 he published a paper on orbital hybridization and resonance. In 1931 he published the first paper, “The Nature of the Chemical Bond”. At this time he was also teaching classes
In 1931 Pauling was awarded the Langmuir Prize of the American Chemical Society for “the most noteworthy work in pure science done by a man under 30 years of age.” In the same year he was offered a joint full professorship in both chemistry and physics at the Massachusetts Institute of Technology. He seriously considered the offers however the harsh Massachusetts winters were too much for him. . He ended up by accepting the position for one year only. In 1933 he was made a member of the National Academy of Sciences.
He was 32, the youngest person to this body ever made.
Pauling was later to write, “By 1935, I had worked out most of the fundamental problems connected with the chemical bond.” and “My serious interest in what is now called molecular biology began about 1935.” He began with a look at hemoglobin. He discovered that a magnet repels the hemoglobin in arteries while that in the veins is attracted to a magnet. His answer to this puzzle resulted in a paper on oxygen’s binding to hemoglobin in 1936. The work on hemoglobin also lead to work on hydrogen-bonding between the polypeptide chains in proteins and another paper that same year on the denaturing of proteins. Also in 1936, he was made chairman of the Division of Chemistry and Chemical Engineering at Cal. Tech. In 1939 he published his most important book, The Nature of the Chemical Bond.
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His work on hydrogen-bonding in proteins lead him to develop a theory of protein structure. It was generally accepted that proteins were made up of polypeptide chains which were, in turn, made up of long strings of amino acids, bonded end to end. He tried to demonstrate a way of coiling the polypeptide chain in the protein alpha keratin to match the x-rays that crystallographer W.T. Astbury had taken and interpreted, but was unable to fit a model to the data.
Finally, in 1948, Pauling worked out the alpha helix structure of a polypeptide. In 1954 Linus Pauling was given the Nobel Prize for Chemistry for his work on molecular structure, especially proteins.
During World War II Pauling worked on various “war” projects as did everyone at Cal. Tech. He chose not to work on the Manhattan In 1947 President Truman awarded him the presidential Medal of Merit for his work on crystal structure, the nature of the chemical bond, and his efforts to bring about world peace.
In November of 1950, he was subpoenaed to appear before the Senate Investigating Committee on Education of the State of California. He testified for over two hours, “mainly about my reasons for objecting to special loyalty oaths involving inquiry into political beliefs.” He wrote the next day, “My own political beliefs are well known.
This was just after Pauling, working with Corey, had used the idea gained from his paper model to work out the structure of many different protein molecules, all of which contained his alpha-helix. His proposed structure was not immediately accepted by the scientific world, however, especially by scientists in England. Therefore, in January of 1952, Pauling requested a passport to attend a meeting in England, specifically to defend his ideas. The passport was denied however He applied again and wrote President Eisenhower, asking him to arrange the issuance of the passport since, “I am a loyal citizen of the United States. I have never been guilty of any unpatriotic or criminal act.” The answer came back asking him to provide the state department with some evidence supporting his claims. He sent a statement, made under oath, stating that he was not a communist, never had been a communist, and had never been involved with the Communist Party. The state department replied that his “anti-communist statements were not sufficiently strong” and again denied the passport on the very day he was supposed to leave for the conference. This pattern of Pauling requesting a passport to attend various conferences and the state department denying the application continued for a little over two years. During this time Einstein wrote a letter to the state department supporting Pauling’s right to have a passport.
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In 1953 Pauling published his book, No More War. Again in April of 1954, when he requested a passport, he was denied it. On November 3 of that year, while he was giving a “routine lecture” on hemoglobin at Cornell University, he was called to the telephone to learn that he had just been awarded the Nobel Prize in Chemistry. His first worry was, would he be able to get a passport so he could accept the prize in person? On November 27, however, barely two weeks before the ceremony in Sweden, his passport did arrive.
On October 10, 1962, it was announced that Linus Pauling had been awarded the Nobel Peace Prize for his efforts on behalf of a nuclear test ban treaty. This award was not universally popular. Many newspapers and magazines printed editorials denouncing him, his activism, and his having been given the prize.
Bibliography:
Encyclopedia of world bibliography 2nd edition
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Http://www.wic.org/bio/lpauling/htm
http://education.yahoo.com/search/be?lb=t&purl%Ap/pauling_linus
