Jerome Karle

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Jerome Karle
Born
Jerome Karfunkle

(1918-06-18)June 18, 1918
DiedJune 6, 2013(2013-06-06) (aged 94)
Resting placeColumbia Gardens Cemetery, Arlington, Virginia, U.S.
Alma materCity College of New York
Harvard University
University of Michigan
Spouse
(m. 1942)
Children3
AwardsNobel Prize in Chemistry in 1985
Navy Distinguished Civilian Service Award in 2009[1]
Scientific career
FieldsPhysical chemistry
Doctoral advisorLawrence O. Brockway

Jerome Karle (born Jerome Karfunkle; June 18, 1918 – June 6, 2013) was an American physical chemist. Jointly with Herbert A. Hauptman, he was awarded the Nobel Prize in Chemistry in 1985, for the direct analysis of crystal structures using X-ray scattering techniques.[2][3][4]

Early life and education[edit]

Karle was born in New York City, on June 18, 1918, the son of Sadie Helen (Kun) and Louis Karfunkle.[5] He was born into a Jewish family with a strong interest in the arts.[6][7] He had played piano as a youth and had participated in a number of competitions, but he was far more interested in science.[2] He attended Abraham Lincoln High School in Brooklyn, and would later join Arthur Kornberg (awarded the Nobel in Medicine in 1959) and Paul Berg (a winner in Chemistry in 1980), as graduates of the school to win Nobel Prizes.[8] As a youth, Karle enjoyed handball, ice skating, touch football and swimming in the nearby Atlantic Ocean.[2]

He started college at the age of 15 and received his bachelor's degree from the City College of New York in 1937, where he took additional courses in biology, chemistry and math in addition to the required curriculum there. He earned a master's degree from Harvard University in 1938, having majored in biology.[2][9]

As part of a plan to accumulate enough money to pay for further graduate studies, Karle took a position in Albany, New York with the New York State Department of Health, where he developed a method to measure dissolved fluoride levels, a technique that would become a standard for water fluoridation.[2]

He enrolled at the University of Michigan in 1940 and met his future wife, Isabella Lugoski, who was sitting at an adjoining desk during his first course in physical chemistry. The two married in 1942. They were both supervised in their PhD studies by physical chemist Lawrence Brockway. Though Karle completed his studies in 1943, he was awarded his PhD the following year.[2][9]

Jerome Karle was a former president of both the American Crystallographic Association (ACA) (1972) and the IUCr (1981-1984), as well as a co-recipient of the 1985 Nobel Prize in Chemistry for his work on direct methods. Among the many additional honors he received for his work, he was elected to the National Academy of Sciences in 1976,[9] the Golden Plate Award of the American Academy of Achievement in 1986,[10] and the American Philosophical Society in 1990.

Research and Nobel Prize[edit]

Starting in 1943, after completing graduate studies, Karle worked on the Manhattan Project at the University of Chicago with his wife Dr. Isabella Karle, one of the youngest scientists and few women on the project. In 1944, they returned to the University of Michigan, where Karle worked on a project for the United States Naval Research Laboratory. In 1946, they moved to Washington, D.C. to work for the Naval Research Laboratory.[2]

Karle and Herbert A. Hauptman were awarded the Nobel Prize in Chemistry in 1985 for their work in using X-ray scattering techniques to determine the structure of crystals, a technique that is used to study the biological, chemical, metallurgical and physical characteristics. They were able to employ the Sayre equation in centrosymmetric structure, developing the so-called direct methods. Through isolating the position of the atoms in a crystal, the molecular structure of the material being studied can be determined, allowing processes to be designed to duplicate the molecules being studied. This technique has played a major role in the development of new pharmaceutical products and other synthesized materials.[3]

Jerome (left foreground) and Isabella Karle (seated center) at their 2009 retirement ceremony

Karle and his wife retired from the U.S. Naval Research Laboratory on July 31, 2009, after a combined 127 years of service to the United States Government, with Karle joining the NRL in 1944 and his wife two years later. At the time of his departure from government service, Karle held the chair of science as chief scientist of the Laboratory for the Structure of Matter. Retirement ceremonies for the Karles were attended by United States Secretary of the Navy Ray Mabus, who presented the couple with the Department of the Navy Distinguished Civilian Service Award, the Navy's highest form of recognition to civilian employees.[11]

Personal[edit]

Karle was married to Isabella Helen Lugoski (1921-2017) with whom he had three daughters, all of whom work in scientific fields:[2]

  • Louise Karle (born 1946) is a theoretical chemist
  • Jean Karle (born 1950) is an organic chemist
  • Madeleine Karle (born 1955) is a museum specialist with expertise in the field of geology.

Death[edit]

Grave of Karle and his wife at Columbia Gardens Cemetery

Karle died of liver cancer on June 6, 2013, at the Leewood Healthcare Center in Annandale, Virginia.[12] Karle is interred at the Columbia Gardens Cemetery in Arlington, Virginia.[13]

See also[edit]

References[edit]

  1. ^ Jain, Chelsi. "Navy Distinguished Civilian Service Award". Atomic Heritage Foundation.
  2. ^ a b c d e f g h Jerome Karle: The Nobel Prize in Chemistry 1985, Nobel Prize. Accessed September 22, 2009.
  3. ^ a b NRL Scientists Receive 1985 Nobel Prize in Chemistry Archived 2007-10-08 at the Wayback Machine, United States Naval Research Laboratory. Accessed September 22, 2009.
  4. ^ W.A. Hendrickson (2013) Jerome Karle (1918–2013), Nature 499(7459), pp 410.
  5. ^ McGrath, Kimberley A.; Travers, Bridget (1999). World of scientific discovery (2nd ed.). Gale Research. p. 530. ISBN 9780787627607.
  6. ^ Jerome Karle Archived 2013-10-05 at the Wayback Machine, City College of New York. Accessed June 6, 2013. "Jerome Karle is an American Jewish physical chemist who shared the 1985 Nobel Prize in Chemistry with a fellow CCNY classmate, Herbert Hauptman, 'for their outstanding achievements in the development of direct methods for the determination of crystal structures.'"
  7. ^ Brody, Seymour "Sy". "American Jewish Recipients of the Nobel Prize - Jerome Karle: Nobel PrizeIn Chemistry Recipient" Archived 2013-06-28 at the Wayback Machine, Florida Atlantic University. Accessed June 6, 2013. "Jerome Karle is an American Jewish recipient of the Nobel Prize, which he shared with Herbert A. Hauptman, for their outstanding achievements in the development of direct methods for the determination of crystal structures."
  8. ^ Hargittai, István. "The road to Stockholm: Nobel Prizes, science, and scientists", p. 121. Oxford University Press, 2002. ISBN 0-19-850912-X. Accessed September 20, 2009. "Arthur Kornberg (M59), Jerome Karle (C85), and Paul Berg (C80) all went to the Abraham Lincoln High School in Brooklyn."
  9. ^ a b c Bohning, James J.; Van Keuren, David K., eds. (9 September 1987). Isabella Karle and Jerome Karle, Transcript of an Interview Conducted by James J. Bohning and David K. Van Keuren at Naval Research Laboratory Washington, District of Columbia on 26 February, 15 June and 9 September 1987 (PDF). Philadelphia, PA: Science History Institute.
  10. ^ "Golden Plate Awardees of the American Academy of Achievement". www.achievement.org. American Academy of Achievement.
  11. ^ McKinney, Donna. "Jerome and Isabella Karle Retire from NRL Following Six Decades of Scientific Exploration" Archived 2011-09-27 at the Wayback Machine, United States Naval Research Laboratory press release dated July 21, 2009. Accessed September 22, 2009.
  12. ^ Jerome Karle, who shared the 1985 Nobel Prize in chemistry, dies at 94. Accessed June 14, 2013.
  13. ^ "Columbia Gardens Cemetery". Retrieved 2021-10-24. 2013 - Jerome Karle, chemist, interred. Won the Nobel Prize in 1985 for the direct analysis of crystal structures using X-ray scattering techniques.

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