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Reid, Philip J. - Department of Chemistry, University of Washington at Seattle
Single-molecule confocal microscopy studies of electric-field induced orientation in chromophore-polymer composite materials
Subscriber access provided by University of Washington | Libraries The Journal of Physical Chemistry C is published by the American Chemical Society.
0 20 40 60 80 100 120 140 1.92 ns 1.12 ns ~IRF2.20 ns 1.64 ns1.87 ns
Subscriber access provided by University of Washington | Libraries The Journal of Physical Chemistry C is published by the American Chemical
The production and decay kinetics of ClOO in water and freon-11: A time-resolved resonance raman study
Time-Resolved Studies of Nitrosyl Halide Photoreaction Dynamics Catherine C. Cooksey, Kevin J. Johnson, and Philip J. Reid
Single-Molecule Fluorescence Microscopy of Emission Intermittency in Organic Dyes Erin A Riley Eric D Bott Bart Kahr Philip J Reid 1.1
Temperature Dependent Single Molecule Fluorescence Intermittency Chris Bingham Erin A.Riley Dan Sluss Eric Bott Philip J.Reid 1.1
Femtosecond Pump-Probe Studies of Nitrosyl Chloride Photochemistry in Solution Catherine C. Cooksey, Kevin J. Johnson, and Philip J. Reid*
Single-Molecule Microscopy Studies of Electric-Field Poling in Chromophore-Polymer Composite Materials
Single-Molecule Orientations in Dyed Salt Crystals Kristin L. Wustholz, Bart Kahr,* and Philip J. Reid*
FEATURE ARTICLE Investigating the Phase-Dependent Reactivity of Chlorine Dioxide Using Resonance Raman
Femtosecond UV Pump/Near-IR Probe Studies of the Solvent-Dependent Excited-State Decay Dynamics of Chlorine Dioxide
Understanding the Phase-Dependent Reactivity of
Time-resolved infrared absorption studies of the solvent-dependent vibrational relaxation dynamics of chlorine dioxide
Energy (cm-1 MolarExtinctionCoefficient(M-1
