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Paul F. Barbara
Researcher at University of Minnesota
Publications - 91
Citations - 9336
Paul F. Barbara is an academic researcher from University of Minnesota. The author has contributed to research in topics: Excited state & Electron transfer. The author has an hindex of 47, co-authored 91 publications receiving 9108 citations. Previous affiliations of Paul F. Barbara include Massachusetts Institute of Technology & Indian Institute of Science.
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Contemporary Issues in Electron Transfer Research
TL;DR: In this paper, a qualitative discussion of electron transfer, its time and distance scales, energy curves, and basic parabolic energy models are introduced to define the electron transfer process, and some of the important, challenging, and problematic issues in contemporary electron transfer research are discussed.
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Discrete Intensity Jumps and Intramolecular Electronic Energy Transfer in the Spectroscopy of Single Conjugated Polymer Molecules
David A. Vanden Bout,Wai-Tak Yip,Wai-Tak Yip,Dehong Hu,Dehong Hu,D. K. Fu,D. K. Fu,Timothy M. Swager,Timothy M. Swager,Paul F. Barbara,Paul F. Barbara +10 more
TL;DR: In this article, single-molecule fluorescence spectroscopy of a multichromophoric conjugated polymer (molecular weight ∼20,000) revealed surprising single-step photobleaching kinetics and acute jumps in fluorescence intensity.
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From molecules to materials : current trends and future directions
A. Paul Alivisatos,Paul F. Barbara,A. Welford Castleman,Jack C Chang,David A. Dixon,Michael L. Klein,George McLendon,Joel S. Miller,Mark A. Ratner,Peter J. Rossky,Samuel I. Stupp,Mark E. Thompson +11 more
TL;DR: The topic of molecule-based materials (MBMs) was chosen as the subject of a workshop sponsored by the Chemical Sciences Division of the United States Department of Energy (US DOE) as mentioned in this paper.
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Rates of DNA-Mediated Electron Transfer Between Metallointercalators
Michelle R. Arkin,Eric D. A. Stemp,R. E. Holmlin,Jacqueline K. Barton,A. Hörmann,Eric J. Olson,Paul F. Barbara +6 more
TL;DR: Data show that the DNA double helix differs significantly from proteins as a bridge for electron transfer, and is sensitive to sequence and π stacking.