Ogilvie, Jennifer - University of Michigan

个人简介

University of Toronto, Canada, Ph.D. 2003. Simon Fraser University, Canada, M.S. 1996 University of Waterloo, B.S. 1994

研究领域

Professor Ogilvie develops multidimensional optical spectroscopy and nonlinear microscopy methods that exploit the interactions between ultrafast (~10-15 s) pulses and matter. These methods require the generation, measurement, and control of sequences of ultrafast pulses over a wide range of frequencies. Multidimensional spectroscopies reveal inhomogeneity, structure, and ultrafast dynamics that are obscured in lower-dimensional measurements. The Ogilvie group applies these powerful spectroscopic approaches to study the ultrafast energy transport and conversion processes in natural and artificial light-harvesting systems

近期论文

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Mechanistic Study of Charge Separation in a Nonfullerene Organic Donor−Acceptor Blend Using Multispectral Multidimensional Spectroscopy Yin Song, Xiao Liu, Yongxi Li, Hoang Huy Nguyen, Rong Duan, Kevin J. Kubarych, Stephen R. Forrest, and Jennifer P. Ogilvie* Hidden Vibronic and Excitonic Structure and Vibronic Coherence Transfer in the Bacterial Reaction Center Veronica R. Policht, Andrew Niedringhaus, Rhiannon Willow, Philip D. Laible, David F. Bocian, Christine Kirmaier, Dewey Holten, Tomáš Mančal, Jennifer P. Ogilvie Excitonic Structure and Charge Separation in the Heliobacterial Reaction Center Probed by Multispectral Multidimensional Spectroscopy Yin Song, Riley Sechrist, Hoang Huy Nguyen, William Johnson, Darius Abramavičius, Kevin Redding, Jennifer P. Ogilvie Two-dimensional electronic Stark spectroscopy of a photosynthetic dimer Hoang H. Nguyen, Anton D. Loukianov, Jennifer P. Ogilvie and Darius Abramavicius Observation of Ultrafast Coherence Transfer and Degenerate States with Polarization-Controlled Two-Dimensional Electronic Spectroscopy Andy S. Sardjan, Floris P. Westerman, Jennifer P. Ogilvie, and Thomas L. C. Jansen Exploiting chemistry and molecular systems for quantum information science Michael R. Wasielewski, Malcolm D. E. Forbes, Natia L. Frank, Karol Kowalski, Gregory D. Scholes, Joel Yuen-Zhou, Marc A. Baldo, Danna E. Freedman, Randall H. Goldsmith, Theodore Goodson III, Martin L. Kirk, James K. McCusker, Jennifer P. Ogilvie, David A. Shultz, Stefan Stoll & K. Birgitta Whaley Quantum biology revisited Jianshu Cao, Richard J. Cogdell, David F. Coker, Hong-Guang Duan, Jürgen Hauer, Ulrich Kleinekathöfer, Thomas L. C. Jansen, Tomáš Mančal, R. J. Dwayne Miller, Jennifer P. Ogilvie, Valentyn I. Prokhorenko, Thomas Renger, Howe-Siang Tan, Roel Tempelaar, Michael Thorwart, Erling Thyrhaug, Sebastian Westenhoff and Donatas Zigmantas Efficient Charge Generation via Hole Transfer in Dilute Organic Donor–Fullerene Blends Yin Song, Alexander Schubert, Xiao Liu, Srijana Bhandari, Stephen R. Forrest, Barry D. Dunietz, Eitan Geva, and Jennifer P. Ogilvie* Vibronic structure of photosynthetic pigments probed by polarized two-dimensional electronic spectroscopy and ab initio calculations Yin Song, Alexander Schubert, Elizabeth Maret, Ryan K. Burdick, Barry D. Dunietz, Eitan Geva and Jennifer P. Ogilvie Multispectral multidimensional spectrometer spanning the ultraviolet to the mid-infrared Yin Song, Arkaprabha Konar, Riley Sechrist, Ved Prakash Roy, Rong Duan, Jared Dziurgot, Veronica Policht, Yassel Acosta Matutes, Kevin J. Kubarych, and Jennifer P. Ogilvie Simulating Fluorescence-Detected Two-Dimensional Electronic Spectroscopy of Multichromophoric Systems (Copy) Tenzin Kunsel, Vivek Tiwari, Yassel Acosta Matutes, Alastair T. Gardiner, Richard J. Cogdell,‡ Jennifer P. Ogilvie,§ and Thomas L. C. Jansen Characterization of Vibrational Coherence in Monomeric Bacteriochlorophyll a by Two-Dimensional Electronic Spectroscopy Veronica R. Policht, Andrew Niedringhaus, and Jennifer P. Ogilvie Spatially-resolved fluorescence-detected two-dimensional electronic spectroscopy probes varying excitonic structure in photosynthetic bacteria Vivek Tiwari, Yassel Acosta Matutes, Alastair T. Gardiner, Thomas L. C. Jansen, Richard J. Cogdell & Jennifer P. Ogilvie Electronic Interactions in the Bacterial Reaction Center Revealed by Two-Color 2D Electronic Spectroscopy Arkaprabha Konar, Riley Sechrist, Yin Song, Veronica R. Policht, Philip D. Laible, David F. Bocian, Dewey Holten, Christine Kirmaier, and Jennifer P. Ogilvie Strongly coupled bacteriochlorin dyad studied using phase-modulated fluorescence-detected two-dimensional electronic spectroscopy Vivek Tiwari, Yassel Acosta Matutes, Akraprabha Konar, Zhanqian Yu, Marcin Ptaszek, David F. Bocian, Dewey Holten, Christine Kirmaier and Jennifer P. Ogilvie Primary processes in the bacterial reaction center probed by two-dimensional electronic spectroscopy Andrew Niedringhaus , Veronica R. Policht , Riley Sechrist , Arkaprabha Konar , Philip D. Laible , David F. Bocian, Dewey Holten , Christine Kirmaier , and Jennifer P. Ogilvie Two-Dimensional Electronic Stark Spectroscopy Anton Loukianov, Andrew Niedringhaus, Brandon Berg, Jie Pan, S. Seckin Senlik, and Jennifer P. Ogilvie Ultrafast energy transfer within the photosystem II core complex J. Pan, A. Gelzinis, V. Chorosajev, M. Vengris, S. S. Senlik, J. R. Shen, L. Valkunas, D. Abramavicius and J. P. Ogilvie Using coherence to enhance function in chemical and biophysical systems Gregory D. Scholes, Graham r. Fleming, Lin X. Chen, Alán Aspuru-Guzik, Andreas Buchleitner, David F. Coker, Gregory S. Engel, Rienk van Grondelle, Akihito Ishizaki, David M. Jonas, Jeff S. Lundeen, James K. McCusker, Shaul Mukamel, Jennifer P. Ogilvie, Alexandra Olaya-castro, Mark A. Ratner, Frank C. Spano, K. Birgitta Whaley & Xiaoyang Zhu Two-Color Nonlinear Spectroscopy for the Rapid Acquisition of Coherent Dynamics S. Seckin Senlik, Veronica R. Policht, and Jennifer P. Ogilvie