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个人简介

Selected Honors/Awards National Finalist, Blavatnik Award for Young Scientists, Blavatnik Family Foundation (2018, 2019) Speaker and panelist for the Opening Session of the 2019 ACS Spring National Meeting (2019) Early Career Award in Experimental Physical Chemistry, ACS Physical Chemistry Division (2018) Distinguished Women in Science Seminar Speaker, Stanford University (2016) Phi Lambda Upsilon Distinguished Speaker, Kansas State University (2015) Harry Gray Award for Creative Work in Inorganic Chemistry by a Young Investigator (2015) Camille Dreyfus Teacher-Scholar Award (2014) Kavli Emerging Leader in Chemistry, American Chemical Society (2013) Distinguished Teaching Award, Northwestern Undergraduate Chemistry Council (2013) A.P. Sloan Research Fellowship (2011) Packard Fellowship for Science and Engineering (2010) Presidential Early Career Award for Scientists and Engineers (PECASE) via DoD(ARO) (2010) Department of Energy Early Career Research Award (2010) Dreyfus Foundation Postdoctoral Program in Environmental Chemistry Award (2009) Air Force Office of Scientific Research Young Investigator Award (2009) Dreyfus Foundation New Faculty Award (2008)

研究领域

Our goal is to understand the mechanisms by which energy is converted from one form to another within hybrids of inorganic nanostructures and organic molecules. The model system we use most is a colloidal semiconductor nanocrystal, or quantum dot. We map the surface chemistry of these nanocrystals to their optical and electronic properties, and their chemical reactivity using a variety of structural, analytical, optical, electrical and computational methods of characterization and modeling. The primary research areas in the lab are colloidal photocatalysis, the use of quantum dots to drive chemical reactions with unprecedented selectivity; the realization of electron ratcheting, a new mode of electron transport through nominally insulating materials; the design of photonic qubits for quantum information science; the photophysical characterization of mixed-dimensional heterojunctions, comprising 0D quantum dots or molecules and 2D semiconductors; ultrafast biology, the development of probes for biological imaging on the nanosecond timescale; and hierarchical photocatalysis, the coupling of catalytic processes to mechanical actuation.

近期论文

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Jiang, Y.; Wang, C.; Rogers, C.R.; Kodaimati, M.S.; Weiss, E.A. Regio- and Diastereoselective Triplet-Initiated Intermolecular [2+2] Cycloadditions Photocatalyzed by Quantum Dots, Nature Chemistry, in press. Kodaimati, M.; Lian, S.; Jiang, Y.; Schatz, G.C.; Weiss, E.A. Energy-Transfer Enhanced Photocatalytic Reduction of Protons within Quantum Dot Light Harvesting–Catalyst Assemblies, Proc. Natl. Acad. Sci., 115, 8290-8295 (2018). Wang, C.; Weiss, E.A. Accelerating FRET between Near-Infrared-Emitting Quantum Dots Using a Molecular J-aggregate as an Exciton Bridge, Nano Lett., 17, 5666-5671 (2017). Kedem, O.; Lau, B.; Ratner, M.A.; Weiss, E.A. A Light-Responsive Organic Electron Flashing Ratchet, Proc. Natl. Acad. Sci., 114, 8698-8703 (2017). Lian, S.; Kodaimati, M.; Weiss, E.A. Photocatalytically Active Superstructures of Quantum Dots and Iron Porphyrins for Reduction of CO2 to CO in Water, ACS Nano, 12, 568–575 (2018). Zhang, Z.; Edme, K.; Weiss, E.A. Enhancing the Rate of Quantum Dot-Photocatalyzed Carbon-Carbon Coupling by Tuning the Composition of the Dot’s Ligand Shell, J. Am. Chem. Soc., 139, 4246-4249 (2017). Jensen, S.C.; Bettis Homan, S.; Weiss, E.A. Photocatalytic Conversion of Nitrobenzene to Aniline through Sequential Proton-Coupled One-Electron Transfers from a Cadmium Sulfide Quantum Dot, J. Am. Chem. Soc., ASAP. Weinberg, D.J.; He, C.; Weiss, E.A. Control of the Redox Activity of Quantum Dots through Introduction of Fluoroalkanethiolates into their Ligand Shells, J. Am. Chem. Soc., ASAP. Tagliazucchi, M.; Zou, F.; Weiss, E.A. Kinetically Controlled Self-assembly of Latex-Microgel Core-Satellite Particles, J. Phys. Chem. Lett., 5, 2775-2780 (2014). Knowles, K.E.; Tagliazucchi, M.; Malicki, M.; Swenson, N.K.; Weiss, E.A. Electron Transfer as a Probe of the Permeability of Organic Monolayers on the Surfaces of Colloidal PbS Quantum Dots, J. Phys. Chem. C, 117, 15849- 15857 (2013). Frederick, M.T.; Cass, L.C.; Amin, V.A.; Weiss, E.A. A Molecule to Detect and Perturb the Confinement of Charge Carriers in Quantum Dots, Nano Lett., 11, 5455-5460 (2011).

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