Norman Haworth Net Worth

Sir Norman Haworth was a British Chemist who won the Nobel Prize for Chemistry in 1937 for his research on Carbohydrates and Vitamin C. He was known for his work on Sugars, devising the correct structure for many of them, and his development of the 'Haworth Projection', a 2-dimensional representation of 3-dimensional sugar structures. His accomplishments not only contributed to the knowledge of Organic Chemistry, but also facilitated low-cost production of Vitamin C (ascorbic acid). His later researches were devoted to the further allocation of physical, chemical and biological problems related to bacterial polysaccharides. His book 'The Constitution of Sugars (1929)' is a standard text book in the domain.
Norman Haworth is a member of Scientists

Age, Biography and Wiki

Who is it? Chemist
Birth Day March 19, 1883
Birth Place Chorley, Lancashire, England, British
Age 136 YEARS OLD
Died On 19 March 1950(1950-03-19) (aged 67)\nBarnt Green, Worcestershire, England
Birth Sign Aries
Alma mater University of Manchester University of Göttingen
Known for investigations on carbohydrates and vitamin C
Awards Davy Medal (1934) Nobel Prize for Chemistry (1937) Royal Medal (1942)
Fields Organic chemistry
Institutions University of St. Andrews Durham University University of Birmingham
Doctoral advisor William Henry Perkin, Jr., Otto Wallach

💰 Net worth

Norman Haworth's net worth is estimated to be between $100K and $1M in 2024. Haworth is widely recognized as a prominent British chemist who has made significant contributions to the field. Known for his groundbreaking research on carbohydrates and vitamin C, his work has had a profound impact on our understanding of these essential molecules. Throughout his career, Haworth has received numerous accolades and awards for his pioneering contributions to chemistry. With his substantial net worth, it is evident that his expertise and dedication have not only elevated scientific knowledge but also brought financial success.

Some Norman Haworth images

Biography/Timeline

1903

Having worked for some time from the age of fourteen in the local Ryland's linoleum factory managed by his Father, he studied for and successfully passed the entrance examination to the University of Manchester in 1903 to study chemistry. He made this pursuit in spite of active discouragement by his parents. He gained his first-class honours degree in 1906. After gaining his master's degree under william Henry Perkin, Jr., he was awarded an 1851 Research Fellowship from the Royal Commission for the Exhibition of 1851 and studied at the University of Göttingen earning his PhD in Otto Wallach's laboratory after only one year of study. A DSc from the University of Manchester followed in 1911, after which he served a short time at the Imperial College of Science and Technology as Senior Demonstrator in Chemistry.

1912

In 1912 Haworth became a lecturer at United College of University of St Andrews in Scotland and became interested in carbohydrate chemistry, which was being investigated at St Andrews by Thomas Purdie (1843–1916) and James Irvine (1877–1952). Haworth began his work on simple sugars in 1915 and developed a new method for the preparation of the methyl ethers of sugars using methyl sulfate and alkali (now called Haworth methylation). He then began studies on the structural features of the disaccharides. Haworth organised the laboratories at St Andrews University for the production of chemicals and drugs for the British government during World War I (1914–1918).

1920

He was appointed Professor of Organic Chemistry at the Armstrong College (Newcastle upon Tyne) of Durham University in 1920. The next year Haworth was appointed Head of the Chemistry Department at the college. It was during his time in the North East of England that he married Violet Chilton Dobbie.

1922

In 1922 he married Violet Chilton Dobbie, daughter of Sir James Johnston Dobbie. They had two sons, James and David.

1925

In 1925 he was appointed Mason Professor of Chemistry at the University of Birmingham (a position he held until 1948). Among his lasting contributions to science was the confirmation of a number of structures of optically active sugars: by 1928, he had deduced and confirmed, among others, the structures of maltose, cellobiose, lactose, gentiobiose, melibiose, gentianose, raffinose, as well as the glucoside ring tautomeric structure of aldose sugars.

1933

In 1933, working with the then Assistant Director of Research (later Sir) Edmund Hirst and a team led by post-doctoral student Maurice Stacey (who in 1956 rose to the same Mason Chair), having properly deduced the correct structure and optical-isomeric nature of vitamin C, Haworth reported the synthesis of the vitamin. Haworth had been given his initial reference sample of "water-soluble vitamin C" or "hexuronic acid" (the previous name for the compound as extracted from natural products) by Hungarian Physiologist Albert Szent-György, who had codiscovered its vitamin properties along with Charles Glen King, and had more recently discovered that it could be extracted in bulk from Hungarian paprika. In honour of the compound's antiscorbutic properties, Haworth and Szent-Györgyi now proposed the new name of "a-scorbic acid" for the molecule, with L-ascorbic acid as its formal chemical name.

1950

He died suddenly from a heart attack on 19 March 1950, his 67th birthday.

1977

In 1977 the Royal Mail issued a postage stamp (one of a series of four) featuring Haworth's achievement in synthesising vitamin C and his Nobel prize.

2007

Haworth is commemorated at the University of Birmingham in the Haworth Building, which houses most of the University of Birmingham School of Chemistry. The School has a Haworth Chair of Chemistry, from 2007 held by Professor Nigel Simpkins.