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Rajendra Rathore (chemist)

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Rajendra Rathore
Dr. Rajendra Rathore in his chemistry lab
Dr. Rajendra Rathore in his chemistry lab
Born(1961-12-12)12 December 1961
Kannauj, Uttar Pradesh, India
Died16 February 2018(2018-02-16) (aged 56)
Milwaukee, Wisconsin, USA
NationalityAmerican
Alma mater
Awards
  • Pfeltschinger-Habermann Chaired Professor of Organic Chemistry
  • Helen Way Klingler College of Arts and Sciences Scholar of the Year, 2017–2018
Scientific career
FieldsOrganic chemistry
Institutions
Thesis Stereoelectronic Effects, Mechanism, and Synthesis in Sulfonyl Chemistry  (1990)

Rajendra Rathore (12 December 1961 – 16 February 2018) was an organic chemist and professor at Marquette University in Milwaukee, Wisconsin as Pfletschinger-Habermann professor of organic chemistry. He made important contributions in the area of supramolecular chemistry, synthesis of novel electro-active molecules, and drug discovery. Rathore died on 16 February 2018, after complications from chronic pulmonary sarcoidosis.

Education

Rathore received his M.Sc. from the Indian Institute of Technology Kanpur in 1986, under the mentorship of S. Chandrasekaran. He earned his Ph.D. in organic chemistry from the University of Western Ontario in London, Canada in 1990. He was a post-doctoral research associate and then a visiting assistant professor during 1992–2000 at the University of Houston under the supervision of Jay Kochi. Rajendra Rathore joined the faculty at Marquette University in 2000.

Research

Rathore was the Pfletschinger-Habermann Professor of Organic Chemistry at Marquette University. He was also nominated for the Helen Way Klingler College of Arts and Sciences Scholar of the Year for 2017–2018, in recognition of outstanding scholarly contributions over the past three years, which he was awarded and received posthumously. Rathore made key contributions to the areas of organic supramolecular and materials chemistry. His interests focused in rational design and synthesis of novel electro-active molecules with applications in molecular recognition, photovoltaics, molecular electronics, and drug discovery. In particular, Rathore was well known for his contributions to studies of the Scholl reaction mechanism, syntheses of cofacially arrayed polyfluorenes, and applications of nitric oxide complexes with aromatic donors. His recent work was focused on elucidating the application of frontier molecular orbitals (FMOs) in the rational design of novel charge-transfer materials.

Synthesis of pillarene

In 1995 Rathore and Kochi reported a synthetic procedure to produce various diarylmethanes from their corresponding benzyl methyl ethers. They showed that transformation of bis(methoxymethyl)-p-hydroquinone ether yields corresponding diarylmethane and a polymeric-like material. A reanalysis of this polymeric material showed that it consisted mainly from pillararene. A full characterization of pillararene was first reported in 2008 by Tomoki Ogoshi et al.

Personal life

Rajendra Rathore was born in Kannauj, India in 1961. In college in Kanpur, India, he met his wife, Rajni. They had two girls.

In October 2018, Marquette University held the Rajendra Rathore Memorial Symposium, where friends and colleagues of Rathore spoke about their research and Rathore's influence on their science and lives.

References

  1. Rajendra Rathore Biography. Marquette University
  2. Rathore, Rajendra; Burns, Carrie L. (May 2003). "A Practical One-Pot Synthesis of Soluble Hexa-peri-hexabenzocoronene and Isolation of Its Cation-Radical Salt". The Journal of Organic Chemistry. 68 (10): 4071–4074. doi:10.1021/jo034271e. PMID 12737593.
  3. Navale, Tushar S.; Ivanov, Maxim V.; Hossain, Mohammad M.; Rathore, Rajendra (15 January 2018). "FHBC, a Hexa-peri-hexabenzocoronene-Fluorene Hybrid: A Platform for Highly Soluble, Easily Functionalizable HBCs with an Expanded Graphitic Core". Angewandte Chemie International Edition. 57 (3): 790–794. doi:10.1002/anie.201711739. PMID 29194947.
  4. Rathore, Rajendra; Abdelwahed, Sameh H.; Guzei, Ilia A. (July 2003). "Synthesis, Structure, and Evaluation of the Effect of Multiple Stacking on the Electron-Donor Properties of π-Stacked Polyfluorenes". Journal of the American Chemical Society. 125 (29): 8712–8713. Bibcode:2003JAChS.125.8712R. doi:10.1021/ja035518s. PMID 12862451.
  5. Ramchandran, Ramani; Sem, Daniel; Rathore, Rajendra. "US Patent Application for SMALL MOLECULE ANTAGONISTS OF DUSP5 AND METHODS OF USE Patent Application (Application #20180000778 issued January 4, 2018) – Justia Patents Search". patents.justia.com. Retrieved 31 May 2018.
  6. "Milwaukee doctor imagines better umbilical cord clamp". Retrieved 31 May 2018.
  7. "Klingler College of Arts and Sciences 2018 Awards". medium.com. 19 April 2018. Retrieved 31 May 2018.
  8. "Rajendra Rathore – Krause Funeral Home". www.krausefuneralhome.com.
  9. Rathore, Rajendra (17 November 2008). "Jay Kazuo Kochi (1927–2008)". Angewandte Chemie International Edition. 47 (48): 9186. doi:10.1002/anie.200805187.
  10. "KLINGLER COLLEGE AWARDS". Marquette University.
  11. Rathore, Rajendra; Kochi, Jay K. (November 1995). "Radical-Cation Catalysis in the Synthesis of Diphenylmethanes via the Dealkylative Coupling of Benzylic Ethers". The Journal of Organic Chemistry. 60 (23): 7479–7490. doi:10.1021/jo00128a020.
  12. Ivanov, Maxim V.; Wang, Denan; Navale, Tushar S.; Lindeman, Sergey V.; Rathore, Rajendra (19 February 2018). "From Intramolecular (Circular) in an Isolated Molecule to Intermolecular Hole Delocalization in a Two-Dimensional Solid-State Assembly: The Case of Pillarene". Angewandte Chemie International Edition. 57 (8): 2144–2149. doi:10.1002/anie.201712159. PMID 29327390.
  13. Ogoshi, Tomoki; Kanai, Suguru; Fujinami, Shuhei; Yamagishi, Tada-aki; Nakamoto, Yoshiaki (April 2008). "-Bridged Symmetrical Pillararenes: Their Lewis Acid Catalyzed Synthesis and Host–Guest Property". Journal of the American Chemical Society. 130 (15): 5022–5023. doi:10.1021/ja711260m. PMID 18357989.
  14. "Rathore Symposium | Department of Chemistry | Marquette University". www.marquette.edu. Retrieved 22 October 2018.
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