Gautam R. Desiraju Explained

Gautam R Desiraju
Birth Date:21 August 1952
Birth Place:Madras, Tamil Nadu, India
Field:Chemistry, X-ray crystallography
Work Institution:Indian Institute of Science, University of Hyderabad
Alma Mater:University of Bombay, University of Illinois
Known For:Crystal engineering, Hydrogen bonding

Gautam Radhakrishna Desiraju (born 21 August 1952) is an Indian structural chemist and educationist, and an emeritus professor at the Indian Institute of Science. He has published on crystal engineering and weak hydrogen bonding.[1] With more than 65,000 citations and an h-index of 104, he is the second most highly cited scientist in India. In 2022, he authored "Bharat: India 2.0", in which he argues that the present constitution is inadequate for a 5,000-year-old civilization.[2]

Biography

Gautam Desiraju was born in Chennai, India, He completed his schooling at Cathedral and John Connon Boys School in Bombay and obtained his BS in 1972 from St. Xavier's College, Mumbai. Under the guidance of David Y. Curtin and Iain C. Paul, he earned his PhD in 1976 from the University of Illinois at Urbana-Champaign. He worked between 1976 and 1978 in the Research Laboratories of Eastman Kodak Company in Rochester, NY. From 1978 to 1979, he was a research fellow at the Indian Institute of Science, Bangalore.

In 1979, he joined the University of Hyderabad as a lecturer, was promoted to reader in 1984, and became a professor in 1990. He spent a year (1988–1989) in the CR&D department of DuPont in Wilmington as a visiting scientist. After 30 years at the University of Hyderabad, he joined the Indian Institute of Science in Bangalore in 2009. He is a member of the editorial advisory boards of Angewandte Chemie, Chemical Communications, and the Journal of the American Chemical Society. He served as president of the International Union of Crystallography from 2011 to 2014 and chaired the first Gordon Research Conferences in Crystal Engineering in 2010. He is a member of the Vice Chancellor's Strategic Advisory Council of the University of Petroleum & Energy Studies (UPES), Dehradun, and a member of the Academic Council of Rishihood University Sonepat.

Desiraju has received honorary doctorate degrees from Universidad Nacional de Córdoba, Argentina, Rayalaseema University, Kurnool, and Gulbarga University, Kalaburagi. In August 2017, he organized the 24th Congress and General Assembly of the International Union of Crystallography in Hyderabad.[3] He was awarded the Acharya P. C. Ray Medal (2015) by the University of Calcutta for innovation in science and technology, the ISA Medal (2018) for Science by the University of Bologna, and the Van der Waals Prize (2023) by ICNI, Strasbourg.[4] [5]

Major research contributions

Desiraju's contribution to crystal engineering focuses on the concept of the supramolecular synthon, a small sub-structural unit that represents the entire crystal structure of a molecular solid. Predicting a crystal structure from a molecular structure is challenging and not easily derivable from functional groups. Identifying supramolecular synthons simplifies this complex problem.[6] The supramolecular synthon concept is now widely used by crystal engineers in the design of molecular crystals and pharmaceutical cocrystals, which have significant scientific and commercial importance. Crystal engineering is akin to supramolecular synthesis in the solid state, with a direct analogy between Desiraju's supramolecular synthon and the molecular synthon proposed for organic synthesis by E. J. Corey.

Desiraju's second area of contribution involves the recognition that weakly activated groups, such as the C-H group, can act as donors of hydrogen bonds in molecular and biomolecular systems. Although weak hydrogen bonds had been discussed sporadically since the 1930s, it was only after the 1980s that the idea of weakly activated groups forming hydrogen bonds gained acceptance in the chemical community. Desiraju was among the few structural chemists who, in those early days, argued that C-H...O and other weak interactions possess hydrogen bond character.

Desiraju has authored approximately 479 research papers and a total of 512 publications as listed in the Web of Science. In addition to his three books on crystal engineering and hydrogen bonding, he has edited three multi-author books on these topics in structural chemistry. Over the past 43 years, he has supervised the PhD work of nearly 40 students.

General writing

Desiraju has authored several commentaries on science, the evolution of chemistry as a subject,[7] emergence and complexity, and research habits and practices in various cultures.[8] He has also written articles about the state of science education and research in India and the current status of chemistry research in the country,[9] identifying problems and suggesting solutions for issues partly rooted in traditional values while aspiring for contemporary advancements.

Despite being American-educated, Desiraju has advocated for inculcating a sense of "Indian-ness" in Indian students and young scientists will foster a modern competitive spirit and adherence to professionalism.

External links

Notes and References

  1. Desiraju, G. R., Vittal, J. J. and Ramanan, A.:"Crystal Engineering. A Textbook", World Scientific, 2011
  2. Desiraju, G. R.:"Bharat: India 2.0", Vitasta, 2022
  3. http://www.iucr2017.org
  4. Desiraju, G. R.: "Crystal Engineering. The Design of Organic Solids", Elsevier, 1989.
  5. Desiraju, G. R. and Steiner, T.: "The Weak Hydrogen Bond in Structural Chemistry and Biology", Oxford University Press, 1999.
  6. Desiraju, G. R.: "Supramolecular Synthons in Crystal Engineering. A New Organic Synthesis", Angewandte Chemie International Edition Engl., 1995, 34, 2311.
  7. Desiraju, G. R.: "Chemistry. The Middle Kingdom", Current Science, 2005, 88, 374.
  8. Desiraju, G. R.: "Bold strategies for Indian science", Nature, 2012, 484, 159.
  9. Arunan, E., Brakaspathy, R., Desiraju, G. R., Sivaram, S.: "Chemistry in India: Unlocking the Potential", Angewandte Chemie International Edition, 2013, 52, 114.