Alison R Fout

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Personal profile

Personal profile

Professor Fout received her undergraduate degree in chemistry from Gannon University in 2002 and a M.S. from the University of North Carolina at Charlotte in 2004.  In 2009 she received her Ph.D. from Indiana University and was the 2010 recipient of the American Chemical Society Division of Inorganic Chemistry Young Investigator Award for her research at Indiana.  From 2009-2012 she was both a Mary Fieser and NIH Postdoctoral Fellow at Harvard University.  Alison joined the faculty at the University of Illinois at Urbana-Champaign in 2012.

Research Interests

synthetic inorganic and organometallic chemistry applied to bioinorganic, catalysis, and small molecule activation

Professional Information

The Fout research program focuses on the synthesis of ligand architectures that can support transition metal complexes capable of mediating unusual transformations for biological, environmental and energy problems. Our main curiosities stem from catalytic, synthetic inorganic, and bioinorganic chemistry. The group is interested in using synthesis, reactivity, and mechanistic studies to understand the activation of small molecules by low-coordinate transition metal-ligand multiple bonds.

Bioinorganic We are interested in developing synthetic systems containing structural and functional motifs found within the particular architecture of metalloproteins.  Our approach to facilitate multi-electron transformations is to use a ligand scaffold with two key features: 1) a hydrogen-bonding network to stabilize reactive intermediates and channel substrates toward the metal center; 2) a redox active phenol or tyrosine. The design of new synthetic systems that are tailored to particular functions will provide insight into the reactivity of targeted metalloproteins.

Synthetic Inorganic and Catalysis: First-row transition metals are more abundant, less toxic and more cost efficient than the second and third-row congeners.  We are interested in using first-row transition metal complexes in both stoichiometric and catalytic transformations to effect the reactive scope currently observed by their heavier counterparts. Using strong-field ligands facilitates desired chemical reactivity by suppressing one electron pathways, resulting in new catalysts for two electron bond-making and bond-breaking processes, e.g. oxidative addition and reductive elimination. Iron, cobalt and nickel catalysts are primary targets for their ability to parallel second and third-row transition metal catalysts.  A related topic of interest involves using sterically encumbering ligands to target high-valent coordinatively unsaturated metal complexes for the intermolecular C-H bond activation of alkenes or arenes. 

Students in the group will develop a strong foundation in synthetic organometallic chemistry while developing familiarity with spectroscopic techniques including multinuclear NMR, electron paramagnetic resonance, magnetometry, X-ray crystallography, IR, UV-vis, Mössbauer, and electrochemistry.

Honors & Awards

2019 Thieme Chemistry Journals Award
2018 American Chemical Society Emergent Investigator in Bioinorganic Chemistry, Division of Inorganic Chemistry
2018 Helen Corley Petit Scholar, UIUC
2018 Ed Stiefel Young Investigator Award, Metals in Biology GRC
2017 Camille Dreyfus Teacher Scholar Award
2017 Dalton Lecturer, University of California, Berkeley
2016-2021 Department of Energy Early Career Research Program
2016-2018 Lincoln Excellence Scholar for Assistant Professors, College of Liberal Arts and Sciences, UIUC
2016 School of Chemical Sciences Teaching Award, UIUC
2016 New Talent Americas, Dalton Transactions
2015 American Chemical Society Emerging Investigators in Bioinorganic Chemistry, Virtual Issue
2015 Marion Milligan Mason Award for Women in the Chemical Sciences, AAAS
2015 Sloan Research Fellow
2014-2019 NSF Faculty Early Career Development (CAREER) Award
2010 American Chemical Society Division of Inorganic Chemistry Young Investigators Award
2010-2012 NIH NRSA Postdoctoral Fellow, Harvard University
2009 Mary Fieser Postdoctoral Fellowship, Harvard University

Office Address

Department of Chemistry
University of Illinois
A406 CLSL, Box 54-6
600 South Mathews Avenue
Urbana, IL 61801

Office Phone

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Research Output

Catalytic Perchlorate Reduction Using Iron: Mechanistic Insights and Improved Catalyst Turnover

Drummond, M. J., Miller, T. J., Ford, C. L. & Fout, A. R., Mar 6 2020, In : ACS Catalysis. 10, 5, p. 3175-3182 8 p.

Research output: Contribution to journalArticle

  • Characterization of Terminal Iron(III)-Oxo and Iron(III)-Hydroxo Complexes Derived from O2 Activation

    Gordon, Z., Miller, T. J., Leahy, C. A., Matson, E. M., Burgess, M., Drummond, M. J., Popescu, C. V., Smith, C. M., Lord, R. L., Rodríguez-López, J. & Fout, A. R., Dec 2 2019, In : Inorganic Chemistry. 58, 23, p. 15801-15811 11 p.

    Research output: Contribution to journalArticle

  • Electronic Ligand Modifications on Cobalt Complexes and Their Application toward the Semi-Hydrogenation of Alkynes and Para-Hydrogenation of Alkenes

    Muhammad, S. R., Nugent, J. W., Tokmic, K., Zhu, L., Mahmoud, J. & Fout, A. R., Aug 26 2019, In : Organometallics. 38, 16, p. 3132-3138 7 p.

    Research output: Contribution to journalArticle

  • Radical Rebound Hydroxylation Versus H-Atom Transfer in Non-Heme Iron(III)-Hydroxo Complexes: Reactivity and Structural Differentiation

    Drummond, M. J., Ford, C. L., Gray, D. L., Popescu, C. V. & Fout, A. R., Apr 24 2019, In : Journal of the American Chemical Society. 141, 16, p. 6639-6650 12 p.

    Research output: Contribution to journalArticle

  • Synthesis and Characterization of (DIPPCCC)Fe Complexes: A Zwitterionic Metalation Method and CO2 Reactivity

    Jackson, B. J., Najera, D. C., Matson, E. M., Woods, T. J., Bertke, J. A. & Fout, A. R., Aug 12 2019, In : Organometallics. 38, 15, p. 2943-2952 10 p.

    Research output: Contribution to journalArticle

    Open Access