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= George Porter =
{{short description|British chemist}}
{{Use dmy dates|date=October 2023}}


'''George Porter''', Baron Porter of Luddenham, [[Order of Merit|OM]], [[Royal Society|FRS]] (6 December 1920 – 31 August 2002) was a British chemist who was awarded the [[Nobel Prize in Chemistry]] in 1967 for his work on the study of extremely fast chemical reactions, effected by disturbing the equilibrium by means of very short pulses of energy. He shared the prize with [[Ronald George Wreyford Norrish]] and [[Manfred Eigen]].
'''George Porter''', Baron Porter of Luddenham, [[Order of Merit|OM]], [[Royal Society|FRS]], was a British chemist who was awarded the [[Nobel Prize in Chemistry]] in 1967 for his work on the study of extremely fast chemical reactions, effected by disturbing the equilibrium by means of very short pulses of energy.


== Early Life and Education ==
==Early Life and Education==
George Porter was born in [[Stainforth, South Yorkshire]], England. He attended [[Thorne Grammar School]] and later studied at the [[University of Leeds]], where he obtained his Bachelor of Science degree in 1941. During [[World War II]], he worked on radar research at the [[University of Birmingham]]. After the war, he pursued a PhD at the [[University of Cambridge]] under the supervision of [[Ronald Norrish]].
[[File:George_Porter_Nobel.jpg|thumb|right|George Porter receiving the Nobel Prize in Chemistry, 1967]]
George Porter was born on 6 December 1920 in [[Stainforth, South Yorkshire|Stainforth]], a small village in [[South Yorkshire]], England. He attended the local school before winning a scholarship to [[Leeds University]], where he studied chemistry. After completing his undergraduate degree, Porter went on to pursue a PhD at [[University of Cambridge|Cambridge University]], where he worked under the supervision of [[Ronald George Wreyford Norrish|Ronald Norrish]].


== Research and Career ==
==Career and Research==
Porter's most notable work was in the field of [[photochemistry]], particularly his development of the technique of [[flash photolysis]]. This technique allowed scientists to observe the intermediate stages of chemical reactions, which occur on extremely short timescales. Flash photolysis involves the use of a short burst of light to initiate a reaction, followed by a second light source to probe the reaction as it progresses.
Porter's early research focused on the study of [[photochemistry]], the branch of chemistry concerned with the chemical effects of light. During his time at Cambridge, he developed a keen interest in the mechanisms of chemical reactions and the role of light in initiating these processes.


In 1955, Porter became a professor at the [[University of Sheffield]], where he continued his research on fast reactions. In 1966, he was appointed Director of the [[Royal Institution]] in London, a position he held until 1985. During his tenure, he also served as Fullerian Professor of Chemistry.
===Flash Photolysis===
In the early 1950s, Porter, along with Norrish, developed the technique of [[flash photolysis]], which allowed scientists to observe the intermediate stages of very fast chemical reactions. This technique involves the use of a short burst of light to excite the molecules in a sample, followed by a second light pulse to probe the changes that occur. Flash photolysis provided a new way to study reaction kinetics and was instrumental in advancing the understanding of [[reaction intermediates]].


== Nobel Prize and Later Work ==
===Nobel Prize===
In 1967, George Porter was awarded the [[Nobel Prize in Chemistry]] along with Norrish and Eigen for their studies of extremely fast chemical reactions. This work laid the foundation for the field of [[femtochemistry]], which involves the study of chemical reactions on the femtosecond timescale.
In 1967, George Porter was awarded the [[Nobel Prize in Chemistry]], along with [[Manfred Eigen]] and [[Ronald George Wreyford Norrish]], for their studies of extremely fast chemical reactions. Porter's contribution was specifically recognized for his development of the flash photolysis technique, which opened up new avenues in the study of chemical kinetics.


After his time at the Royal Institution, Porter continued to be active in science policy and education. He was a strong advocate for the public understanding of science and frequently appeared on television and radio to discuss scientific topics.
==Later Work and Legacy==
After receiving the Nobel Prize, Porter continued to be an influential figure in the field of chemistry. He served as the Director of the [[Royal Institution]] in London from 1966 to 1985, where he was instrumental in promoting public understanding of science. He was also a strong advocate for the role of science in addressing global challenges, such as [[climate change]] and [[energy sustainability]].


== Honors and Legacy ==
Porter was made a [[life peer]] in 1990, taking the title Baron Porter of Luddenham. He remained active in scientific and public life until his death on 31 August 2002.
Porter was knighted in 1972 and was made a life peer as Baron Porter of Luddenham in 1990. He was also a member of the [[Order of Merit]], one of the highest honors in the United Kingdom.


Porter's work has had a lasting impact on the field of chemistry, particularly in the study of reaction dynamics. His development of flash photolysis opened new avenues for research and has been instrumental in advancing our understanding of chemical processes.
==Honors and Awards==
Throughout his career, George Porter received numerous honors and awards in recognition of his contributions to science. In addition to the Nobel Prize, he was elected a Fellow of the [[Royal Society]] in 1960 and was awarded the [[Order of Merit]] in 1989.


== See Also ==
==Related pages==
* [[Photochemistry]]
* [[Photochemistry]]
* [[Flash photolysis]]
* [[Chemical kinetics]]
* [[Femtochemistry]]
* [[Nobel Prize in Chemistry]]
* [[Nobel Prize in Chemistry]]
* [[Royal Institution]]


== References ==
* {{Cite book | last=Porter | first=George | title=Chemistry for the Modern World | publisher=Penguin Books | year=1988 | isbn=978-0140226853 }}
* {{Cite journal | last=Porter | first=George | title=Flash Photolysis and Spectroscopy - A New Method for the Study of Free Radical Reactions | journal=Proceedings of the Royal Society A | volume=200 | issue=1061 | pages=284–300 | year=1950 | doi=10.1098/rspa.1950.0151 }}
[[Category:1920 births]]
[[Category:2002 deaths]]
[[Category:British chemists]]
[[Category:British chemists]]
[[Category:Nobel laureates in Chemistry]]
[[Category:Nobel laureates in Chemistry]]
[[Category:Fellows of the Royal Society]]
[[Category:Fellows of the Royal Society]]
[[Category:Alumni of the University of Leeds]]
[[Category:1920 births]]
[[Category:Alumni of the University of Cambridge]]
[[Category:2002 deaths]]
[[Category:Knights Bachelor]]
[[Category:Members of the Order of Merit]]

Latest revision as of 11:06, 15 February 2025

British chemist



George Porter, Baron Porter of Luddenham, OM, FRS, was a British chemist who was awarded the Nobel Prize in Chemistry in 1967 for his work on the study of extremely fast chemical reactions, effected by disturbing the equilibrium by means of very short pulses of energy.

Early Life and Education[edit]

George Porter receiving the Nobel Prize in Chemistry, 1967

George Porter was born on 6 December 1920 in Stainforth, a small village in South Yorkshire, England. He attended the local school before winning a scholarship to Leeds University, where he studied chemistry. After completing his undergraduate degree, Porter went on to pursue a PhD at Cambridge University, where he worked under the supervision of Ronald Norrish.

Career and Research[edit]

Porter's early research focused on the study of photochemistry, the branch of chemistry concerned with the chemical effects of light. During his time at Cambridge, he developed a keen interest in the mechanisms of chemical reactions and the role of light in initiating these processes.

Flash Photolysis[edit]

In the early 1950s, Porter, along with Norrish, developed the technique of flash photolysis, which allowed scientists to observe the intermediate stages of very fast chemical reactions. This technique involves the use of a short burst of light to excite the molecules in a sample, followed by a second light pulse to probe the changes that occur. Flash photolysis provided a new way to study reaction kinetics and was instrumental in advancing the understanding of reaction intermediates.

Nobel Prize[edit]

In 1967, George Porter was awarded the Nobel Prize in Chemistry, along with Manfred Eigen and Ronald George Wreyford Norrish, for their studies of extremely fast chemical reactions. Porter's contribution was specifically recognized for his development of the flash photolysis technique, which opened up new avenues in the study of chemical kinetics.

Later Work and Legacy[edit]

After receiving the Nobel Prize, Porter continued to be an influential figure in the field of chemistry. He served as the Director of the Royal Institution in London from 1966 to 1985, where he was instrumental in promoting public understanding of science. He was also a strong advocate for the role of science in addressing global challenges, such as climate change and energy sustainability.

Porter was made a life peer in 1990, taking the title Baron Porter of Luddenham. He remained active in scientific and public life until his death on 31 August 2002.

Honors and Awards[edit]

Throughout his career, George Porter received numerous honors and awards in recognition of his contributions to science. In addition to the Nobel Prize, he was elected a Fellow of the Royal Society in 1960 and was awarded the Order of Merit in 1989.

Related pages[edit]

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