Suzanne Bart

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Suzanne Bart
Born
Suzanne Cathleen Bart
Alma materUniversity of Delaware
Cornell University
Scientific career
InstitutionsPurdue University
University of Erlangen–Nuremberg
ThesisHomogeneous iron catalysts with redox-active ligands : synthesis and electronic structure (2006)
Academic advisorsPaul Chirik, Karsten Meyer
Websitehttps://www.chem.purdue.edu/bart/index.html

Suzanne Cathleen Bart an American chemist who is a professor of inorganic chemistry at Purdue University.[1] Her group's research focuses on actinide organometallic chemistry, and especially the characterization of low-valent organouranium complexes, actinide complexes with redox-active ligands,[2] and discovery of new reactions that utilize these compounds.[3] Bart's research has applications in the development of carbon-neutral fuel sources and the remediation of polluted sites.

Early life and education[edit]

Bart was an undergraduate student at the University of Delaware, where she earned her B.S. in 2001 She moved to Cornell University for graduate studies, earning a master's degree in 2003 and a Ph.D. in 2006 working with Paul Chirik. Her doctoral research considered iron catalysts with redox-active ligands.[4][5][6][7] After completing her graduate studies, Bart moved to the University of Erlangen–Nuremberg in Germany, where she worked a postdoctoral researcher with Karsten Meyer.[8]

Research and career[edit]

Bart began her independent career at Purdue University in 2008.[9] She is interested in the design of new fuels and development of strategies to remediate nuclear waste. She mainly considers actinide chemistry and the organometallic chemistry of depleted uranium and transuranic elements.[10][11] Depleted uranium emits weak alpha particles with a long half-life, and has considerable potential in the activation of large substrates.[12]

Bart has developed redox-active ligands to transform biologically and industrially relevant small molecules. These ligands can store electrons in the π* orbitals of their conjugated backbone, which facilitates multi-electron redox chemistry.[13] Bart has shown that it is possible to synthesize low-valent uranium alkyls, which avoids the U(IV) state and one-electron (radical) chemistry, the latter of which is harder to synthetically control.[10] Alongside the identification of new chemical transformations, Bart is interested in the fundamentals of carbon-uranium chemical bonding,[14] and the development of efficient catalysts.[11] She has extensively utilized the tris(pyrazolyl)borate ligand.[10][15]

Awards and honors[edit]

Selected publications[edit]

  • Suzanne C Bart; Emil Lobkovsky; Paul J Chirik (1 October 2004). "Preparation and molecular and electronic structures of iron(0) dinitrogen and silane complexes and their application to catalytic hydrogenation and hydrosilation". Journal of the American Chemical Society. 126 (42): 13794–13807. doi:10.1021/JA046753T. ISSN 0002-7863. PMID 15493939. Wikidata Q45114534.
  • Suzanne C Bart; Krzysztof Chłopek; Eckhard Bill; Marco W Bouwkamp; Emil Lobkovsky; Frank Neese; Karl Wieghardt; Paul J Chirik (1 October 2006). "Electronic structure of bis(imino)pyridine iron dichloride, monochloride, and neutral ligand complexes: a combined structural, spectroscopic, and computational study". Journal of the American Chemical Society. 128 (42): 13901–13912. doi:10.1021/JA064557B. ISSN 0002-7863. PMID 17044718. Wikidata Q34574194.
  • Alexander R Fox; Suzanne C Bart; Karsten Meyer; Christopher C Cummins (1 September 2008). "Towards uranium catalysts". Nature. 455 (7211): 341–349. doi:10.1038/NATURE07372. ISSN 1476-4687. PMID 18800133. Wikidata Q37272554.

References[edit]

  1. ^ "bart - Purdue University Department of Chemistry". www.chem.purdue.edu. Retrieved 2022-06-05.
  2. ^ Galley, Shane S.; Pattenaude, Scott A.; Gaggioli, Carlo Alberto; Qiao, Yusen; Sperling, Joseph M.; Zeller, Matthias; Pakhira, Srimanta; Mendoza-Cortes, Jose L.; Schelter, Eric J.; Albrecht-Schmitt, Thomas E.; Gagliardi, Laura (2019-02-13). "Synthesis and Characterization of Tris-chelate Complexes for Understanding f -Orbital Bonding in Later Actinides". Journal of the American Chemical Society. 141 (6): 2356–2366. doi:10.1021/jacs.8b10251. ISSN 0002-7863. PMID 30714372. S2CID 73450937.
  3. ^ Coughlin, Ezra J.; Qiao, Yusen; Lapsheva, Ekaterina; Zeller, Matthias; Schelter, Eric J.; Bart, Suzanne C. (2019-01-16). "Uranyl Functionalization Mediated by Redox-Active Ligands: Generation of O–C Bonds via Acylation". Journal of the American Chemical Society. 141 (2): 1016–1026. doi:10.1021/jacs.8b11302. ISSN 0002-7863. PMID 30532952. S2CID 54471038.
  4. ^ Doucette, Suzanne Cathleen (2006). Homogeneous iron catalysts with redox-active ligands: synthesis and electronic structure (Thesis). OCLC 137486007.
  5. ^ Bart, Suzanne C.; Lobkovsky, Emil; Chirik, Paul J. (2004-10-01). "Preparation and Molecular and Electronic Structures of Iron(0) Dinitrogen and Silane Complexes and Their Application to Catalytic Hydrogenation and Hydrosilation". Journal of the American Chemical Society. 126 (42): 13794–13807. doi:10.1021/ja046753t. ISSN 0002-7863. PMID 15493939.
  6. ^ Bart, Suzanne C.; Lobkovsky, Emil; Bill, Eckhard; Chirik, Paul J. (2006-04-01). "Synthesis and Hydrogenation of Bis(imino)pyridine Iron Imides". Journal of the American Chemical Society. 128 (16): 5302–5303. doi:10.1021/ja057165y. ISSN 0002-7863. PMID 16620076.
  7. ^ Bart, Suzanne C.; Chłopek, Krzysztof; Bill, Eckhard; Bouwkamp, Marco W.; Lobkovsky, Emil; Neese, Frank; Wieghardt, Karl; Chirik, Paul J. (2006-10-01). "Electronic Structure of Bis(imino)pyridine Iron Dichloride, Monochloride, and Neutral Ligand Complexes: A Combined Structural, Spectroscopic, and Computational Study". Journal of the American Chemical Society. 128 (42): 13901–13912. doi:10.1021/ja064557b. ISSN 0002-7863. PMID 17044718.
  8. ^ "Purdue Chemistry: Bart Lab for Inorganic Chemistry: Suzanne Bart". www.chem.purdue.edu. Retrieved 2022-06-04.
  9. ^ Bart, Suzanne C.; Hanna, Tamara E. (2019-01-28). "Bonding in Chemistry: Surprising Results from an Ordinary Glovebox". Organometallics. 38 (2): 198–199. doi:10.1021/acs.organomet.9b00007. ISSN 0276-7333. S2CID 104325295.
  10. ^ a b c "Purdue Chemistry: Bart Lab for Inorganic Chemistry: Research". www.chem.purdue.edu. Retrieved 2022-06-04.
  11. ^ a b Pichon, Anne (2017). "Bonding with actinides". Nature Chemistry. 9 (9): 832. doi:10.1038/nchem.2855. ISSN 1755-4349. PMID 28837179.
  12. ^ "bart - Purdue University Department of Chemistry". www.chem.purdue.edu. Retrieved 2022-06-04.
  13. ^ "Actinides revisited 2022". actinides.eventmember.de. Retrieved 2022-06-04.
  14. ^ "NSF Award Search: Award # 1665170 - Establishing Bonding and Reactivity in Organometallic Uranium Species". www.nsf.gov. Retrieved 2022-06-04.
  15. ^ Perales, Diana; Lin, Nathan J.; Bronstetter, Michaela R.; Ford, Shannon A.; Zeller, Matthias; Bart, Suzanne C. (2022-03-14). "Conversion of Uranium(III) Anilido Complexes to Uranium(IV) Imido Complexes via Hydrogen Atom Transfer". Organometallics. 41 (5): 606–616. doi:10.1021/acs.organomet.1c00680. ISSN 0276-7333.
  16. ^ "Organometallics Announces Winners of the Senior and Young Investigator Fellowships". Division of Inorganic Chemistry. 2014-05-16. Retrieved 2022-06-04.
  17. ^ "WCC Names Rising Star Awardees". cen.acs.org. Retrieved 2022-06-04.
  18. ^ "2024 ACS National Award winners announced".
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