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Robert Burns Woodward

February 15, 2024

For other people named Robert Woodward, see Robert Woodward (disambiguation).

Robert Burns Woodward ForMemRS HonFRSE (April 10, 1917 – July 8, 1979) was an American organic chemist. He is considered by many to be the preeminent synthetic organic chemist of the twentieth century,[3] having made many key contributions to the subject, especially in the synthesis of complex natural products and the determination of their molecular structure. He worked closely with Roald Hoffmann on theoretical studies of chemical reactions. He was awarded the Nobel Prize in Chemistry in 1965.

Robert Burns Woodward
Born(1917-04-10)April 10, 1917
Boston, Massachusetts, U.S.
DiedJuly 8, 1979(1979-07-08) (aged 62)
Cambridge, Massachusetts, U.S.
CitizenshipUnited States
Alma materMIT (S.B., Ph.D.)
Known for
Awards
Scientific career
FieldsOrganic chemistry
InstitutionsHarvard University
ThesisA Synthetic Attack on the Oestrone Problem (1937)
Doctoral advisorJames Flack Norris
Avery Adrian Morton[2]
Doctoral students

Early life and education edit

Woodward was born in Boston, Massachusetts, on April 10, 1917. He was the son of Margaret Burns (an immigrant from Scotland who claimed to be a descendant of the poet, Robert Burns) and her husband, Arthur Chester Woodward, himself the son of Roxbury apothecary, Harlow Elliot Woodward.

His father was one of the many victims of the 1918 influenza pandemic.

From a very early age, Woodward was attracted to and engaged in private study of chemistry while he attended a public primary school, and then Quincy High School,[4] in Quincy, Massachusetts. By the time he entered high school, he had already managed to perform most of the experiments in Ludwig Gattermann's then widely used textbook of experimental organic chemistry. In 1928, Woodward contacted the Consul-General of the German consulate in Boston (Baron von Tippelskirch [5]), and through him, managed to obtain copies of a few original papers published in German journals. Later, in his Cope lecture, he recalled how he had been fascinated when, among these papers, he chanced upon Diels and Alder's original communication about the Diels–Alder reaction. Throughout his career, Woodward was to repeatedly and powerfully use and investigate this reaction, both in theoretical and experimental ways. In 1933, he entered the Massachusetts Institute of Technology (MIT), but neglected his formal studies badly enough to be excluded at the end of the 1934 fall term. MIT readmitted him in the 1935 fall term, and by 1936 he had received the Bachelor of Science degree. Only one year later, MIT awarded him the doctorate, when his classmates were still graduating with their bachelor's degrees.[6] Woodward's doctoral work involved investigations related to the synthesis of the female sex hormone estrone.[7] MIT required that graduate students have research advisors. Woodward's advisors were James Flack Norris and Avery Adrian Morton,[citation needed] although it is not clear whether he actually took any of their advice. After a short postdoctoral stint at the University of Illinois, he took a Junior Fellowship at Harvard University from 1937 to 1938, and remained at Harvard in various capacities for the rest of his life. In the 1960s, Woodward was named Donner Professor of Science, a title that freed him from teaching formal courses so that he could devote his entire time to research.

Research and career edit

Early work edit

The first major contribution of Woodward's career in the early 1940s was a series of papers describing the application of ultraviolet spectroscopy in the elucidation of the structure of natural products. Woodward collected together a large amount of empirical data, and then devised a series of rules later called the Woodward's rules, which could be applied to finding out the structures of new natural substances, as well as non-natural synthesized molecules. The expedient use of newly developed instrumental techniques was a characteristic Woodward exemplified throughout his career, and it marked a radical change from the extremely tedious and long chemical methods of structural elucidation that had been used until then.

In 1944, with his post doctoral researcher, William von Eggers Doering, Woodward reported the synthesis of the alkaloid quinine, used to treat malaria. Although the synthesis was publicized as a breakthrough in procuring the hard to get medicinal compound from Japanese occupied southeast Asia, in reality it was too long and tedious to adopt on a practical scale. Nevertheless, it was a landmark for chemical synthesis. Woodward's particular insight in this synthesis was to realise that the German chemist Paul Rabe had converted a precursor of quinine called quinotoxine to quinine in 1905. Hence, a synthesis of quinotoxine (which Woodward actually synthesized) would establish a route to synthesizing quinine. When Woodward accomplished this feat, organic synthesis was still largely a matter of trial and error, and nobody thought that such complex structures could actually be constructed. Woodward showed that organic synthesis could be made into a rational science, and that synthesis could be aided by well-established principles of reactivity and structure. This synthesis was the first one in a series of exceedingly complicated and elegant syntheses that he would undertake.

Later work and its impact edit

 
Woodward talked about Chlorophyll in 1965

Culminating in the 1930s, the British chemists Christopher Ingold and Robert Robinson among others had investigated the mechanisms of organic reactions, and had come up with empirical rules which could predict reactivity of organic molecules. Woodward was perhaps the first synthetic organic chemist who used these ideas as a predictive framework in synthesis. Woodward's style was the inspiration for the work of hundreds of successive synthetic chemists who synthesized medicinally important and structurally complex natural products.

Organic syntheses and Nobel Prize edit

During the late 1940s, Woodward synthesized many complex natural products including quinine, cholesterol, cortisone, strychnine, lysergic acid, reserpine, chlorophyll, cephalosporin, and colchicine.[8] With these, Woodward opened up a new era of synthesis, sometimes called the 'Woodwardian era' in which he showed that natural products could be synthesized by careful applications of the principles of physical organic chemistry, and by meticulous planning.

Many of Woodward's syntheses were described as spectacular by his colleagues and before he did them, it was thought by some that it would be impossible to create these substances in the lab. Woodward's syntheses were also described as having an element of art in them, and since then, synthetic chemists have always looked for elegance as well as utility in synthesis. His work also involved the exhaustive use of the then newly developed techniques of infrared spectroscopy and later, nuclear magnetic resonance spectroscopy. Another important feature of Woodward's syntheses was their attention to stereochemistry or the particular configuration of molecules in three-dimensional space. Most natural products of medicinal importance are effective, for example as drugs, only when they possess a specific stereochemistry. This creates the demand for 'stereoselective synthesis', producing a compound with a defined stereochemistry. While today a typical synthetic route routinely involves such a procedure, Woodward was a pioneer in showing how, with exhaustive and rational planning, one could conduct reactions that were stereoselective. Many of his syntheses involved forcing a molecule into a certain configuration by installing rigid structural elements in it, another tactic that has become standard today. In this regard, especially his syntheses of reserpine and strychnine were landmarks.

During World War II, Woodward was an advisor to the War Production Board on the penicillin project. Although often given credit for proposing the beta-lactam structure of penicillin, it was actually first proposed by chemists at Merck and Edward Abraham at Oxford and then investigated by other groups, as well (e.g., Shell). Woodward at first endorsed an incorrect tricyclic (thiazolidine fused, amino bridged oxazinone) structure put forth by the penicillin group at Peoria. Subsequently, he put his imprimatur on the beta-lactam structure, all of this in opposition to the thiazolidineoxazolone structure proposed by Robert Robinson, the then leading organic chemist of his generation. Ultimately, the beta-lactam structure was shown to be correct by Dorothy Hodgkin using X-ray crystallography in 1945.

Woodward also applied the technique of infrared spectroscopy and chemical degradation to determine the structures of complicated molecules. Notable among these structure determinations were santonic acid, strychnine, magnamycin and terramycin. In each one of these cases, Woodward again showed how rational facts and chemical principles, combined with chemical intuition, could be used to achieve the task.

In the early 1950s, Woodward, along with the British chemist Geoffrey Wilkinson, then at Harvard, postulated a novel structure for ferrocene, a compound consisting of a combination of an organic molecule with iron.[9] This marked the beginning of the field of transition metal organometallic chemistry which grew into an industrially very significant field.[10] Wilkinson won the Nobel Prize for this work in 1973, along with Ernst Otto Fischer.[11] Some historians think that Woodward should have shared this prize along with Wilkinson. Remarkably, Woodward himself thought so, and voiced his thoughts in a letter sent to the Nobel Committee.[12]

Woodward won the Nobel Prize in 1965 for his synthesis of complex organic molecules. He had been nominated a total of 111 times from 1946 to 1965.[13] In his Nobel lecture, he described the total synthesis of the antibiotic cephalosporin, and claimed that he had pushed the synthesis schedule so that it would be completed around the time of the Nobel ceremony.

B12 synthesis and Woodward–Hoffmann rules edit

In the early 1960s, Woodward began work on what was the most complex natural product synthesized to date—vitamin B12. In a remarkable collaboration with his colleague Albert Eschenmoser in Zurich, a team of almost one hundred students and postdoctoral workers worked for many years on the synthesis of this molecule. The work was finally published in 1973, and it marked a landmark in the history of organic chemistry. The synthesis included almost a hundred steps, and involved the characteristic rigorous planning and analyses that had always characterised Woodward's work. This work, more than any other, convinced organic chemists that the synthesis of any complex substance was possible, given enough time and planning (see also palytoxin, synthesized by the research group of Yoshito Kishi, one of Woodward's postdoctoral students). As of 2019, no other total synthesis of Vitamin B12 has been published.

That same year, based on observations that Woodward had made during the B12 synthesis, he and Roald Hoffmann devised rules (now called the Woodward–Hoffmann rules) for elucidating the stereochemistry of the products of organic reactions.[14] Woodward formulated his ideas (which were based on the symmetry properties of molecular orbitals) based on his experiences as a synthetic organic chemist; he asked Hoffman to perform theoretical calculations to verify these ideas, which were done using Hoffmann's Extended Hückel method. The predictions of these rules, called the "Woodward–Hoffmann rules" were verified by many experiments. Hoffmann shared the 1981 Nobel Prize for this work along with Kenichi Fukui, a Japanese chemist who had done similar work using a different approach; Woodward had died in 1979 and Nobel Prizes are not awarded posthumously.

Woodward Institute edit

While at Harvard, Woodward took on the directorship of the Woodward Research Institute, based at Basel, Switzerland, in 1963.[15] He also became a trustee of his alma mater, MIT, from 1966 to 1971, and of the Weizmann Institute of Science in Israel.

Woodward died in Cambridge, Massachusetts, from a heart attack in his sleep. At the time, he was working on the synthesis of an antibiotic, erythromycin. A student of his said about him:[citation needed]

I owe a lot to R. B. Woodward. He showed me that one could attack difficult problems without a clear idea of their outcome, but with confidence that intelligence and effort would solve them. He showed me the beauty of modern organic chemistry, and the relevance to the field of detailed careful reasoning. He showed me that one does not need to specialize. Woodward made great contributions to the strategy of synthesis, to the deduction of difficult structures, to the invention of new chemistry, and to theoretical aspects as well. He taught his students by example the satisfaction that comes from total immersion in our science. I treasure the memory of my association with this remarkable chemist.

Publications edit

During his lifetime Woodward authored or coauthored almost 200 publications, of which 85 are full papers, the remainder comprising preliminary communications, the text of lectures, and reviews. The pace of his scientific activity soon outstripped his capacity to publish all experimental details, and much of the work in which he participated was not published until a few years after his death. Woodward trained more than two hundred Ph.D. students and postdoctoral workers, many of whom later went on to distinguished careers.

Some of his best-known students include (Colorado State), Harry Wasserman (Yale), Yoshito Kishi (Harvard), Stuart Schreiber (Harvard), William R. Roush (Scripps-Florida), Steven A. Benner (UF), James D. Wuest (Montreal), Christopher S. Foote (UCLA), Kendall Houk (UCLA), porphyrin chemist Kevin M. Smith (LSU), Thomas R. Hoye (University of Minnesota), Ronald Breslow (Columbia University) and David Dolphin (UBC).

Woodward had an encyclopaedic knowledge of chemistry, and an extraordinary memory for detail.[16] Probably the quality that most set him apart from his peers was his remarkable ability to tie together disparate threads of knowledge from the chemical literature and bring them to bear on a chemical problem.[16]

Honors and awards edit

For his work, Woodward received many awards, honors and honorary doctorates, including election to the American Academy of Arts and Sciences in 1948,[17] the National Academy of Sciences in 1953,[18] the American Philosophical Society in 1962,[19] and membership in academies around the world. He was also a consultant to many companies such as Polaroid, Pfizer, and Merck. Other awards include:

Honorary degrees edit

Woodward also received over twenty honorary degrees,[22] including honorary doctorates from the following universities:

Personal life edit

Family edit

In 1938, he married Irja Pullman; they had two daughters: Siiri Anna (b. 1939) and Jean Kirsten (b. 1944). In 1946, he married Eudoxia Muller, an artist and technician whom he met at the Polaroid Corp. This marriage, which lasted until 1972, produced a daughter, and a son: Crystal Elisabeth (b. 1947), and Eric Richard Arthur (b. 1953).[6]

Idiosyncrasies edit

His lectures frequently lasted for three or four hours.[5] His longest known lecture defined the unit of time known as the "Woodward", after which his other lectures were deemed to be so many "milli-Woodwards" long.[23] In many of these, he eschewed the use of slides and drew structures by using multicolored chalk. Typically, to begin a lecture, Woodward would arrive and lay out two large white handkerchiefs on the countertop. Upon one would be four or five colors of chalk (new pieces), neatly sorted by color, in a long row. Upon the other handkerchief would be placed an equally impressive row of cigarettes. The previous cigarette would be used to light the next one. His Thursday seminars at Harvard often lasted well into the night. He had a fixation with blue, and many of his suits, his car, and even his parking space were coloured in blue.[5]

In one of his laboratories, his students hung a large black and white photograph of the master from the ceiling, complete with a large blue "tie" appended. There it hung for some years (early 1970s), until scorched in a minor laboratory fire.[citation needed] He detested exercise, could get along with only a few hours of sleep every night, was a heavy smoker, and enjoyed Scotch whisky and martinis.[1][24]

References edit

  1. ^ a b c Todd, L.; Cornforth, J.; T., A. R.; C., J. W. (1981). "Robert Burns Woodward. 10 April 1917-8 July 1979". Biographical Memoirs of Fellows of the Royal Society. 27: 628–695. doi:10.1098/rsbm.1981.0025. ISSN 0080-4606.
  2. ^ Woodward, Robert Burns (1937). A synthetic attack on the oestrone problem (Thesis). MIT. hdl:1721.1/12465.
  3. ^ Elkan Blout (2001). "Robert Burns Woodward". Biographical Memoirs of the National Academy of Sciences. 80. | url = http://www.nasonline.org/publications/biographical-memoirs/memoir-pdfs/woodward-robert-b.pdf
  4. ^ Putnam, Robert C. (2001). Benfey, Otto Theodor; Turnbull Morris, Peter John (eds.). Reminiscences From Junior High School. Chemical Heritage Foundation. p. 12. ISBN 9780941901253. {{cite book}}: |work= ignored (help)
  5. ^ a b c Remembering organic chemistry legend Robert Burns Woodward Famed chemist would have been 100 this year By Bethany Halford C&EN Volume 95 Issue 15 | pp. 28-34 Issue Date: April 10, 2017 link.
  6. ^ a b The Nobel Prize in Chemistry 1965 - Robert B. Woodward Biography Nobelprize.org
  7. ^ A synthetic attack on the oestrone problem PhD dissertation
  8. ^ "Chlorophyll". The New York Times. July 3, 1960. Retrieved October 13, 2012. Prof. Robert Burns Woodward, the Harvard chemist who synthesized quinine, cortisone and rauwolfia, has now achieved one of the greatest triumphs in chemistry -- the total synthesis of chlorophyll, the green pigment that captures the energy of sunlight for the creation of the food for all things living. ...
  9. ^ Wilkinson, G.; Rosenblum, M.; Whiting, M. C.; Woodward, R. B. (1952). "The Structure of Iron Bis-Cyclopentadienyl". J. Am. Chem. Soc. 74 (8): 2125–2126. doi:10.1021/ja01128a527.
  10. ^ Federman Neto, A.; Pelegrino, A. C.; Darin, V. A. (2004). "Ferrocene: 50 Years of Transition Metal Organometallic Chemistry — From Organic and Inorganic to Supramolecular Chemistry". ChemInform. 35 (43). doi:10.1002/chin.200443242.
  11. ^ "The Nobel Prize in Chemistry 1973". nobelprize.org. Retrieved September 12, 2010.
  12. ^ Werner, H. (2008). Landmarks in Organo-Transition Metal Chemistry: A Personal View. Springer Science. pp. 161–163. ISBN 978-0-387-09847-0.
  13. ^ "Nomination Archive". April 2020.
  14. ^ Hoffmann, R.; Woodward, R. B. (1970). "Orbital Symmetry Control of Chemical Reactions". Science (published February 6, 1970). 167 (3919): 825–831. Bibcode:1970Sci...167..825H. doi:10.1126/science.167.3919.825. PMID 17742608. S2CID 12243669.
  15. ^ Craig, G. Wayne (2011). "The Woodward Research Institute, Robert Burns Woodward (1917–1979) and Chemistry behind the Glass Door". Helvetica Chimica Acta. 94 (6): 923–946. doi:10.1002/hlca.201100077.
  16. ^ a b Roberts, J. (1990). The Right Place at the Right Time. American Chemical Society. ISBN 978-0-8412-1766-9.
  17. ^ "Robert Burns Woodward". American Academy of Arts & Sciences. Retrieved 2022-11-14.
  18. ^ "Robert Woodward". www.nasonline.org. Retrieved 2022-11-14.
  19. ^ "APS Member History". search.amphilsoc.org. Retrieved 2022-11-14.
  20. ^ Awards North Jersey Section American Chemical Society - see section Current & Past Recipients of the Leo Hendrik Baekeland Award
  21. ^ American Chemical Society - Chicago Section
  22. ^ Blout, Elkan. "Robert Burns Woodward 1917–1979: A Biographical Memoir" (PDF). National Academy of Sciences. The National Academy Press. Retrieved January 15, 2017.
  23. ^ (in French)Introduction à la chimie quantique Philippe Hiberty and Nguyên Trong Anh, Editions Ecole Polytechnique Renaud-Bray (2008) p.115 ISBN 2730214852
  24. ^ Robert Burns Woodward April 27, 2012, at the Wayback Machine.

Bibliography edit

  • Robert Burns Woodward: Architect and Artist in the World of Molecules; Otto Theodor Benfey, Peter J. T. Morris, Chemical Heritage Foundation, April 2001.
  • Robert Burns Woodward and the Art of Organic Synthesis: To Accompany an Exhibit by the Beckman Center for the History of Chemistry (Publication / Beckman Center for the History of Chemistry); Mary E. Bowden; Chemical Heritage Foundation, March 1992
  • Woodward R. B.; Sondheimer F.; Taub D. (1951). "The Total Synthesis of Cortisone". Journal of the American Chemical Society. 73 (8): 4057. doi:10.1021/ja01152a551.
  • George B. Kauffman (2004). "Organic Synthesizer par excellence – On the 25th Anniversary of His Death". Chem. Educator. 9: 1–5.
  • Robert Burns Woodward on Nobelprize.org  
  • Robert Burns Woodward: Three Score Years and Then? David Dolphin, Aldrichimica Acta, 1977, 10(1), 3–9.
  • Robert Burns Woodward Patents

External links edit

 
Wikiquote has quotations related to Robert Burns Woodward.
  • Notes from Robert Burns Woodward's Seminars taken by Robert E. Kohler in Science History Institute Digital Collections
  • Robert Burns Woodward on Nobelprize.org   including the Nobel Lecture, December 11, 1965 Recent Advances in the Chemistry of Natural Products

February 15, 2024
robert, burns, woodward, other, people, named, robert, woodward, robert, woodward, disambiguation, formemrs, honfrse, april, 1917, july, 1979, american, organic, chemist, considered, many, preeminent, synthetic, organic, chemist, twentieth, century, having, ma. For other people named Robert Woodward see Robert Woodward disambiguation Robert Burns Woodward ForMemRS HonFRSE April 10 1917 July 8 1979 was an American organic chemist He is considered by many to be the preeminent synthetic organic chemist of the twentieth century 3 having made many key contributions to the subject especially in the synthesis of complex natural products and the determination of their molecular structure He worked closely with Roald Hoffmann on theoretical studies of chemical reactions He was awarded the Nobel Prize in Chemistry in 1965 Robert Burns WoodwardBorn 1917 04 10 April 10 1917Boston Massachusetts U S DiedJuly 8 1979 1979 07 08 aged 62 Cambridge Massachusetts U S CitizenshipUnited StatesAlma materMIT S B Ph D Known forLandmark organic syntheses Molecular structure determination Vitamin B12 total synthesis Woodward cis hydroxylation Woodward modification Woodward synthesis Woodward s rules Woodward Doering quinine synthesis Woodward Hoffmann rules Prevost Woodward reactionAwardsCentenary Prize 1951 ForMemRS 1956 1 William H Nichols Medal 1956 Davy Medal 1959 National Medal of Science 1964 Nobel Prize in Chemistry 1965 Willard Gibbs Award 1967 Copley Medal 1978 Scientific careerFieldsOrganic chemistryInstitutionsHarvard UniversityThesisA Synthetic Attack on the Oestrone Problem 1937 Doctoral advisorJames Flack NorrisAvery Adrian Morton 2 Doctoral studentsChristopher Foote Ken Houk Ronald Breslow Stuart Schreiber William R Roush David M Lemal Contents 1 Early life and education 2 Research and career 2 1 Early work 2 2 Later work and its impact 2 3 Organic syntheses and Nobel Prize 2 4 B12 synthesis and Woodward Hoffmann rules 2 5 Woodward Institute 2 6 Publications 3 Honors and awards 3 1 Honorary degrees 4 Personal life 4 1 Family 4 2 Idiosyncrasies 5 References 6 Bibliography 7 External linksEarly life and education editWoodward was born in Boston Massachusetts on April 10 1917 He was the son of Margaret Burns an immigrant from Scotland who claimed to be a descendant of the poet Robert Burns and her husband Arthur Chester Woodward himself the son of Roxbury apothecary Harlow Elliot Woodward His father was one of the many victims of the 1918 influenza pandemic From a very early age Woodward was attracted to and engaged in private study of chemistry while he attended a public primary school and then Quincy High School 4 in Quincy Massachusetts By the time he entered high school he had already managed to perform most of the experiments in Ludwig Gattermann s then widely used textbook of experimental organic chemistry In 1928 Woodward contacted the Consul General of the German consulate in Boston Baron von Tippelskirch 5 and through him managed to obtain copies of a few original papers published in German journals Later in his Cope lecture he recalled how he had been fascinated when among these papers he chanced upon Diels and Alder s original communication about the Diels Alder reaction Throughout his career Woodward was to repeatedly and powerfully use and investigate this reaction both in theoretical and experimental ways In 1933 he entered the Massachusetts Institute of Technology MIT but neglected his formal studies badly enough to be excluded at the end of the 1934 fall term MIT readmitted him in the 1935 fall term and by 1936 he had received the Bachelor of Science degree Only one year later MIT awarded him the doctorate when his classmates were still graduating with their bachelor s degrees 6 Woodward s doctoral work involved investigations related to the synthesis of the female sex hormone estrone 7 MIT required that graduate students have research advisors Woodward s advisors were James Flack Norris and Avery Adrian Morton citation needed although it is not clear whether he actually took any of their advice After a short postdoctoral stint at the University of Illinois he took a Junior Fellowship at Harvard University from 1937 to 1938 and remained at Harvard in various capacities for the rest of his life In the 1960s Woodward was named Donner Professor of Science a title that freed him from teaching formal courses so that he could devote his entire time to research Research and career editEarly work edit The first major contribution of Woodward s career in the early 1940s was a series of papers describing the application of ultraviolet spectroscopy in the elucidation of the structure of natural products Woodward collected together a large amount of empirical data and then devised a series of rules later called the Woodward s rules which could be applied to finding out the structures of new natural substances as well as non natural synthesized molecules The expedient use of newly developed instrumental techniques was a characteristic Woodward exemplified throughout his career and it marked a radical change from the extremely tedious and long chemical methods of structural elucidation that had been used until then In 1944 with his post doctoral researcher William von Eggers Doering Woodward reported the synthesis of the alkaloid quinine used to treat malaria Although the synthesis was publicized as a breakthrough in procuring the hard to get medicinal compound from Japanese occupied southeast Asia in reality it was too long and tedious to adopt on a practical scale Nevertheless it was a landmark for chemical synthesis Woodward s particular insight in this synthesis was to realise that the German chemist Paul Rabe had converted a precursor of quinine called quinotoxine to quinine in 1905 Hence a synthesis of quinotoxine which Woodward actually synthesized would establish a route to synthesizing quinine When Woodward accomplished this feat organic synthesis was still largely a matter of trial and error and nobody thought that such complex structures could actually be constructed Woodward showed that organic synthesis could be made into a rational science and that synthesis could be aided by well established principles of reactivity and structure This synthesis was the first one in a series of exceedingly complicated and elegant syntheses that he would undertake Later work and its impact edit nbsp Woodward talked about Chlorophyll in 1965Culminating in the 1930s the British chemists Christopher Ingold and Robert Robinson among others had investigated the mechanisms of organic reactions and had come up with empirical rules which could predict reactivity of organic molecules Woodward was perhaps the first synthetic organic chemist who used these ideas as a predictive framework in synthesis Woodward s style was the inspiration for the work of hundreds of successive synthetic chemists who synthesized medicinally important and structurally complex natural products Organic syntheses and Nobel Prize edit During the late 1940s Woodward synthesized many complex natural products including quinine cholesterol cortisone strychnine lysergic acid reserpine chlorophyll cephalosporin and colchicine 8 With these Woodward opened up a new era of synthesis sometimes called the Woodwardian era in which he showed that natural products could be synthesized by careful applications of the principles of physical organic chemistry and by meticulous planning Many of Woodward s syntheses were described as spectacular by his colleagues and before he did them it was thought by some that it would be impossible to create these substances in the lab Woodward s syntheses were also described as having an element of art in them and since then synthetic chemists have always looked for elegance as well as utility in synthesis His work also involved the exhaustive use of the then newly developed techniques of infrared spectroscopy and later nuclear magnetic resonance spectroscopy Another important feature of Woodward s syntheses was their attention to stereochemistry or the particular configuration of molecules in three dimensional space Most natural products of medicinal importance are effective for example as drugs only when they possess a specific stereochemistry This creates the demand for stereoselective synthesis producing a compound with a defined stereochemistry While today a typical synthetic route routinely involves such a procedure Woodward was a pioneer in showing how with exhaustive and rational planning one could conduct reactions that were stereoselective Many of his syntheses involved forcing a molecule into a certain configuration by installing rigid structural elements in it another tactic that has become standard today In this regard especially his syntheses of reserpine and strychnine were landmarks During World War II Woodward was an advisor to the War Production Board on the penicillin project Although often given credit for proposing the beta lactam structure of penicillin it was actually first proposed by chemists at Merck and Edward Abraham at Oxford and then investigated by other groups as well e g Shell Woodward at first endorsed an incorrect tricyclic thiazolidine fused amino bridged oxazinone structure put forth by the penicillin group at Peoria Subsequently he put his imprimatur on the beta lactam structure all of this in opposition to the thiazolidine oxazolone structure proposed by Robert Robinson the then leading organic chemist of his generation Ultimately the beta lactam structure was shown to be correct by Dorothy Hodgkin using X ray crystallography in 1945 Woodward also applied the technique of infrared spectroscopy and chemical degradation to determine the structures of complicated molecules Notable among these structure determinations were santonic acid strychnine magnamycin and terramycin In each one of these cases Woodward again showed how rational facts and chemical principles combined with chemical intuition could be used to achieve the task In the early 1950s Woodward along with the British chemist Geoffrey Wilkinson then at Harvard postulated a novel structure for ferrocene a compound consisting of a combination of an organic molecule with iron 9 This marked the beginning of the field of transition metal organometallic chemistry which grew into an industrially very significant field 10 Wilkinson won the Nobel Prize for this work in 1973 along with Ernst Otto Fischer 11 Some historians think that Woodward should have shared this prize along with Wilkinson Remarkably Woodward himself thought so and voiced his thoughts in a letter sent to the Nobel Committee 12 Woodward won the Nobel Prize in 1965 for his synthesis of complex organic molecules He had been nominated a total of 111 times from 1946 to 1965 13 In his Nobel lecture he described the total synthesis of the antibiotic cephalosporin and claimed that he had pushed the synthesis schedule so that it would be completed around the time of the Nobel ceremony B12 synthesis and Woodward Hoffmann rules edit In the early 1960s Woodward began work on what was the most complex natural product synthesized to date vitamin B12 In a remarkable collaboration with his colleague Albert Eschenmoser in Zurich a team of almost one hundred students and postdoctoral workers worked for many years on the synthesis of this molecule The work was finally published in 1973 and it marked a landmark in the history of organic chemistry The synthesis included almost a hundred steps and involved the characteristic rigorous planning and analyses that had always characterised Woodward s work This work more than any other convinced organic chemists that the synthesis of any complex substance was possible given enough time and planning see also palytoxin synthesized by the research group of Yoshito Kishi one of Woodward s postdoctoral students As of 2019 no other total synthesis of Vitamin B12 has been published That same year based on observations that Woodward had made during the B12 synthesis he and Roald Hoffmann devised rules now called the Woodward Hoffmann rules for elucidating the stereochemistry of the products of organic reactions 14 Woodward formulated his ideas which were based on the symmetry properties of molecular orbitals based on his experiences as a synthetic organic chemist he asked Hoffman to perform theoretical calculations to verify these ideas which were done using Hoffmann s Extended Huckel method The predictions of these rules called the Woodward Hoffmann rules were verified by many experiments Hoffmann shared the 1981 Nobel Prize for this work along with Kenichi Fukui a Japanese chemist who had done similar work using a different approach Woodward had died in 1979 and Nobel Prizes are not awarded posthumously Woodward Institute edit While at Harvard Woodward took on the directorship of the Woodward Research Institute based at Basel Switzerland in 1963 15 He also became a trustee of his alma mater MIT from 1966 to 1971 and of the Weizmann Institute of Science in Israel Woodward died in Cambridge Massachusetts from a heart attack in his sleep At the time he was working on the synthesis of an antibiotic erythromycin A student of his said about him citation needed I owe a lot to R B Woodward He showed me that one could attack difficult problems without a clear idea of their outcome but with confidence that intelligence and effort would solve them He showed me the beauty of modern organic chemistry and the relevance to the field of detailed careful reasoning He showed me that one does not need to specialize Woodward made great contributions to the strategy of synthesis to the deduction of difficult structures to the invention of new chemistry and to theoretical aspects as well He taught his students by example the satisfaction that comes from total immersion in our science I treasure the memory of my association with this remarkable chemist Publications edit During his lifetime Woodward authored or coauthored almost 200 publications of which 85 are full papers the remainder comprising preliminary communications the text of lectures and reviews The pace of his scientific activity soon outstripped his capacity to publish all experimental details and much of the work in which he participated was not published until a few years after his death Woodward trained more than two hundred Ph D students and postdoctoral workers many of whom later went on to distinguished careers Some of his best known students include Robert M Williams Colorado State Harry Wasserman Yale Yoshito Kishi Harvard Stuart Schreiber Harvard William R Roush Scripps Florida Steven A Benner UF James D Wuest Montreal Christopher S Foote UCLA Kendall Houk UCLA porphyrin chemist Kevin M Smith LSU Thomas R Hoye University of Minnesota Ronald Breslow Columbia University and David Dolphin UBC Woodward had an encyclopaedic knowledge of chemistry and an extraordinary memory for detail 16 Probably the quality that most set him apart from his peers was his remarkable ability to tie together disparate threads of knowledge from the chemical literature and bring them to bear on a chemical problem 16 Honors and awards editFor his work Woodward received many awards honors and honorary doctorates including election to the American Academy of Arts and Sciences in 1948 17 the National Academy of Sciences in 1953 18 the American Philosophical Society in 1962 19 and membership in academies around the world He was also a consultant to many companies such as Polaroid Pfizer and Merck Other awards include John Scott Medal from the Franklin Institute and City of Philadelphia 1945 Leo Hendrik Baekeland Award from the North Jersey Section of the American Chemical Society 1955 20 Elected a Foreign Member of the Royal Society ForMemRS in 1956 1 Davy Medal from the Royal Society in 1959 Roger Adams Medal from the American Chemical Society in 1961 citation needed Pius XI Gold Medal from the Pontifical Academy of Sciences in 1969 citation needed National Medal of Science from the United States in 1964 For an imaginative new approach to the synthesis of complex organic molecules and especially for his brilliant syntheses of strychnine reserphine lysergic acid and chlorophyll Nobel Prize in Chemistry in 1965 Willard Gibbs Award from the Chicago Section of the American Chemical Society in 1967 21 Lavoisier Medal from the Societe chimique de France in 1968 The Order of the Rising Sun Second Class from the Emperor of Japan in 1970 Hanbury Memorial Medal from The Pharmaceutical Society of Great Britain in 1970 citation needed Pierre Bruylants Medal from the University of Louvain in 1970 citation needed AMA Scientific Achievement Award in 1971 Cope Award from the American Chemical Society shared with Roald Hoffmann in 1973 Copley Medal from the Royal Society London in 1978 Honorary degrees edit Woodward also received over twenty honorary degrees 22 including honorary doctorates from the following universities Wesleyan University in 1945 Harvard University in 1957 University of Cambridge in 1964 citation needed Brandeis University in 1965 Technion Israel Institute of Technology in Haifa in 1966 University of Western Ontario in Canada in 1968 University of Louvain in Belgium 1970 Personal life editFamily edit In 1938 he married Irja Pullman they had two daughters Siiri Anna b 1939 and Jean Kirsten b 1944 In 1946 he married Eudoxia Muller an artist and technician whom he met at the Polaroid Corp This marriage which lasted until 1972 produced a daughter and a son Crystal Elisabeth b 1947 and Eric Richard Arthur b 1953 6 Idiosyncrasies edit His lectures frequently lasted for three or four hours 5 His longest known lecture defined the unit of time known as the Woodward after which his other lectures were deemed to be so many milli Woodwards long 23 In many of these he eschewed the use of slides and drew structures by using multicolored chalk Typically to begin a lecture Woodward would arrive and lay out two large white handkerchiefs on the countertop Upon one would be four or five colors of chalk new pieces neatly sorted by color in a long row Upon the other handkerchief would be placed an equally impressive row of cigarettes The previous cigarette would be used to light the next one His Thursday seminars at Harvard often lasted well into the night He had a fixation with blue and many of his suits his car and even his parking space were coloured in blue 5 In one of his laboratories his students hung a large black and white photograph of the master from the ceiling complete with a large blue tie appended There it hung for some years early 1970s until scorched in a minor laboratory fire citation needed He detested exercise could get along with only a few hours of sleep every night was a heavy smoker and enjoyed Scotch whisky and martinis 1 24 References edit a b c Todd L Cornforth J T A R C J W 1981 Robert Burns Woodward 10 April 1917 8 July 1979 Biographical Memoirs of Fellows of the Royal Society 27 628 695 doi 10 1098 rsbm 1981 0025 ISSN 0080 4606 Woodward Robert Burns 1937 A synthetic attack on the oestrone problem Thesis MIT hdl 1721 1 12465 Elkan Blout 2001 Robert Burns Woodward Biographical Memoirs of the National Academy of Sciences 80 url http www nasonline org publications biographical memoirs memoir pdfs woodward robert b pdf Putnam Robert C 2001 Benfey Otto Theodor Turnbull Morris Peter John eds Reminiscences From Junior High School Chemical Heritage Foundation p 12 ISBN 9780941901253 a href Template Cite book html title Template Cite book cite book a work ignored help a b c Remembering organic chemistry legend Robert Burns Woodward Famed chemist would have been 100 this year By Bethany Halford C amp EN Volume 95 Issue 15 pp 28 34 Issue Date April 10 2017 link a b The Nobel Prize in Chemistry 1965 Robert B Woodward Biography Nobelprize org A synthetic attack on the oestrone problem PhD dissertation Chlorophyll The New York Times July 3 1960 Retrieved October 13 2012 Prof Robert Burns Woodward the Harvard chemist who synthesized quinine cortisone and rauwolfia has now achieved one of the greatest triumphs in chemistry the total synthesis of chlorophyll the green pigment that captures the energy of sunlight for the creation of the food for all things living Wilkinson G Rosenblum M Whiting M C Woodward R B 1952 The Structure of Iron Bis Cyclopentadienyl J Am Chem Soc 74 8 2125 2126 doi 10 1021 ja01128a527 Federman Neto A Pelegrino A C Darin V A 2004 Ferrocene 50 Years of Transition Metal Organometallic Chemistry From Organic and Inorganic to Supramolecular Chemistry ChemInform 35 43 doi 10 1002 chin 200443242 The Nobel Prize in Chemistry 1973 nobelprize org Retrieved September 12 2010 Werner H 2008 Landmarks in Organo Transition Metal Chemistry A Personal View Springer Science pp 161 163 ISBN 978 0 387 09847 0 Nomination Archive April 2020 Hoffmann R Woodward R B 1970 Orbital Symmetry Control of Chemical Reactions Science published February 6 1970 167 3919 825 831 Bibcode 1970Sci 167 825H doi 10 1126 science 167 3919 825 PMID 17742608 S2CID 12243669 Craig G Wayne 2011 The Woodward Research Institute Robert Burns Woodward 1917 1979 and Chemistry behind the Glass Door Helvetica Chimica Acta 94 6 923 946 doi 10 1002 hlca 201100077 a b Roberts J 1990 The Right Place at the Right Time American Chemical Society ISBN 978 0 8412 1766 9 Robert Burns Woodward American Academy of Arts amp Sciences Retrieved 2022 11 14 Robert Woodward www nasonline org Retrieved 2022 11 14 APS Member History search amphilsoc org Retrieved 2022 11 14 Awards North Jersey Section American Chemical Society see section Current amp Past Recipients of the Leo Hendrik Baekeland Award American Chemical Society Chicago Section Blout Elkan Robert Burns Woodward 1917 1979 A Biographical Memoir PDF National Academy of Sciences The National Academy Press Retrieved January 15 2017 in French Introduction a la chimie quantique Philippe Hiberty and Nguyen Trong Anh Editions Ecole Polytechnique Renaud Bray 2008 p 115 ISBN 2730214852 Robert Burns Woodward Archived April 27 2012 at the Wayback Machine Bibliography editThis list is incomplete you can help by adding missing items March 2022 Robert Burns Woodward Architect and Artist in the World of Molecules Otto Theodor Benfey Peter J T Morris Chemical Heritage Foundation April 2001 Robert Burns Woodward and the Art of Organic Synthesis To Accompany an Exhibit by the Beckman Center for the History of Chemistry Publication Beckman Center for the History of Chemistry Mary E Bowden Chemical Heritage Foundation March 1992 Woodward R B Sondheimer F Taub D 1951 The Total Synthesis of Cortisone Journal of the American Chemical Society 73 8 4057 doi 10 1021 ja01152a551 George B Kauffman 2004 Organic Synthesizer par excellence On the 25th Anniversary of His Death Chem Educator 9 1 5 Robert Burns Woodward on Nobelprize org nbsp Video podcast of Robert Burns Woodward talking about cephalosporin Robert Burns Woodward Three Score Years and Then David Dolphin Aldrichimica Acta 1977 10 1 3 9 Robert Burns Woodward PatentsExternal links edit nbsp Wikiquote has quotations related to Robert Burns Woodward Notes from Robert Burns Woodward s Seminars taken by Robert E Kohler in Science History Institute Digital Collections Robert Burns Woodward on Nobelprize org nbsp including the Nobel Lecture December 11 1965 Recent Advances in the Chemistry of Natural Products Retrieved from https en wikipedia org w index php title Robert Burns Woodward amp oldid 1201436817, wikipedia, wiki, book, books, library,

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