Eroy-Reveles, A. Alegra - San Francisco State University - Department of Chemistry and Biochemistry

个人简介

B.A. (2001) Amherst College, Chemistry and Spanish Ph.D. (2008) UC Santa Cruz, Chemistry and Biochemistry NIH IRACDA Postdoctoral Fellow, UC San Francisco

研究领域

Chemistry education operates at the interface between chemistry and society. It helps chemists determine what knowledge society needs, and it investigates how chemistry is learned by chemists-to-be and society in general.� The ACS Task Force on Chemical Education Research (Bunce, D.; Gabel, D.; Herron, J. D.; Jones, L. J. Chem. Ed., 1994, 71, 850) My research program studies the motivation(s) guiding students who want to pursue a career in chemistry and science. By identifying experiences (such as group exercises, research, mentoring, leadership, community service, etc) that help students to persist in science, we can develop programs and strategies that enhance learning in chemistry classes and promote the development of scientists. I am particularly interested in engaging students in community-based projects as a mechanism to apply course-based chemistry education to societal questions and needs.

近期论文

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1.Brown, C. M.; Ray, M.; Eroy-Reveles, A. A.; Egea, P.; Tajon, C.; Craik, C. S. Peptide length and prime-side sterics influence potency of peptide phosphonate protease inhibitors. Chem. Biol. 2010, 18, 48-57. 2.Eroy-Reveles, A. A.; Mascharak, P. K. Nitric oxide-donating materials and their potential in pharmacological applications in site-specific nitric oxide delivery. Future Med. Chem. 2009, 1, 1497-1507. 3.Hoffman-Luca, C. G.; Eroy-Reveles, A. A.; Alvarenga, J.; Mascharak, P. K. Syntheses, Structures, and Photochemistry of Manganese Nitrosyls Derived from Designed Schiff Base Ligands: Potential NO Donors that can be Activated by Near-Infrared Light. Inorg. Chem. 2009, 48, 9104-9111. 4.Eroy-Reveles, A. A.; Leung, Y.; Beavers, C. M.; Olmstead, M. M.; Mascharak, P. K. Near-Infrared Light Activated Release of Nitric Oxide from Designed Photoactive Manganese Nitrosyls: Strategy, Design, and Potential as NO Donors. J. Am. Chem. Soc. 2008, 130, 4447-4458. 5.Eroy-Reveles, A. A.; Hoffman-Luca, C. G.; Mascharak, P. K. Formation of a Triply Bridged μ-oxo Diiron(III) Core Stabilized by Two Deprotonated Carboxamido Groups upon Photorelease of NO from a {Fe-NO}6 Iron Nitrosyl. Dalton Trans. 2007, 5268-5274. 6.Eroy-Reveles, A. A.; Leung, Y.; Mascharak, P. K. Visible Light Activated Release of Nitric Oxide from a Sol-gel/Polyurethane Material Containing a Manganese Nitrosyl Complex. J. Am. Chem. Soc. 2006, 128, 7166-7167. 7.Afshar, R. K.; Eroy-Reveles, A. A.; Mascharak, P. K. Stoichiometric and Catalytic Secondary O-Atom Transfer by Fe(III)-NO2 Complexes Derived from a Planar Tetradentate Non-Heme Ligand: Reminiscence of Heme Chemistry. Inorg. Chem. 2006, 45, 10347-10354. 8.Madhani, M.; Patra, A. K.; Miller, T. W.; Eroy-Reveles, A. A.; Hobbs, A.; Fukuto, J. M.; Mascharak, P. K. Biological Activity of Designed Photolabile Nitrosyls: Light-Dependent Activation of Soluble Guanylate Cyclase and Vasorelaxant Properties in Rat Aorta. J Med. Chem. 2006, 49, 7325-7330. 9.Szundi, I.; Rose, M. J.; Sen, I.; Eroy-Reveles, A. A.; Mascharak, P. K.; Einarsdottir, O. A New Approach for Studying Fast Biological Reactions Involving Nitric Oxide: Generation of NO using Photolabile Ruthenium and Manganese Donors. Photochem. Photobiol. 2006, 82, 1377-1384. 10.Ghosh, K.; Eroy-Reveles, A. A.; Olmstead, M. M.; Mascharak, P. K. Reductive Nitrosylation and Proton-Assisted Bridge Splitting of a (μ-Oxo)dimanganese(III) Complex Derived from a Polypyridine Ligand with One Carboxamide Group. Inorg. Chem. 2005, 44, 8469-8475. 11.Ghosh, K.; Eroy-Reveles, A. A.; Avila, B.; Holman, T.; Olmstead, M. M.; Mascharak, P. K. Reactions of NO with Mn(II) and Mn(III) Centers Coordinated to Carboxamido Nitrogen: Synthesis of a Manganese Nitrosyl with Photolabile NO. Inorg. Chem. 2004, 43, 2988-2997.