Dwyer Research Group
The University of Rhode Island
Earlier Work
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J. Phys. Chem. Lett. (2013) 4, 2339. Nanofluidic cells with controlled path length and liquid flow for rapid, high-resolution in situ Imaging with Electrons.
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Rev. Sci. Instrumen. (2013) 84, 036101. An environmental cell for transient spectroscopy on solid samples in controlled atmospheres.
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J. Phys. Chem. C (2012) 116, 23315. Conductance-Based Determination of Solid-State Nanopore Size and Shape: An Exploration of Performance Limits.
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J. Phys. Chem. A (2011) 115, 13149. QTAIM investigation of the electronic structure and large Raman scattering intensity of Bicyclo-[1.1.1]-pentane.
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ACS Nano (2009) 3, 3009. Single-molecule bonds characterized by solid-state nanopore force spectroscopy.
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Chem. Phys. (2009) 357, 36. Ultrafast dynamics of N-H and O-H stretching excitations in hydrated DNA oligomers.
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J. Phys. Chem. B. (2008) 112, 11194. Ultrafast vibrational dynamics of adenine-thymine base pairs in DNA oligomers.
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Springer Series in Chemical Physics, Ultrafast Phenomena XVI (2008). Ultrafast vibrational dynamics of adenine-thymine base pairs in hydrated DNA.
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Chem. Phys. (2007) 341, 175. Ultrafast vibrational dynamics and anharmonic couplings of hydrogen-bonded dimers in solution.
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J. Mod. Opt. (2007) 54, 923. Experimental basics for femtosecond electron diffraction studies.
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J. Mod. Opt. (2007) 54, 905. Femtosecond electron diffraction: An atomic perspective of condensed phase dynamics.
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Springer Series in Chemical Physics, Ultrafast Phenomena XV (2007) 88, 335. 2D-IR photon echo spectroscopy of liquid H2O—Combination of novel nanofluidics and diffractive optics deciphers ultrafast structural dynamics.
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Chem. Phys. Lett. (2006) 432, 146. Ultrafast dynamics of vibrational N-H stretching excitations in the 7-azaindole dimer.
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Phil. Trans. Roy. Soc. A (2006) 364, 741. Femtosecond electron diffraction: “Making the molecular movie”.
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Nature (2005) 434, 199. Ultrafast memory loss and energy redistribution in the hydrogen bond network of liquid H2O.
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Springer Series in Chemical Physics, Ultrafast Phenomena XIV (2005) 79, 144. Femtosecond electron diffraction: Towards making the “molecular movie”.
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Chem. Phys. (2004) 299, 285. Femtosecond electron diffraction studies of strongly driven structural phase transitions.
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Cover article:
Science (2003) 302, 1382. An atomic level view of melting using femtosecond electron diffraction. -
Springer Series in Chemical Physics, Ultrafast Phenomena XIII (2003) 322. Ultrafast electron optics: Propagation dynamics and measurement of femtosecond electron packets.
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J. Appl. Phys. (2003) 94, 807. Response to “Comment on `Ultrafast electron optics: Propagation dynamics of femtosecond electron packets’”.
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J. Appl. Phys. (2002) 92, 1643. Ultrafast electron optics: Propagation dynamics of femtosecond electron packets.
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Can. J. Chem. (2000) 78, 1035. Ab initio analysis of C-H and C-C stretching intensities in Raman spectra of hydrocarbons.
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J. Chem. Phys. (1999) 111, 9971. Histogram filtering: A technique to optimize wavefunctions for use in Monte Carlo simulations.
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J. Phys. Chem. A (1998) 102, 2723. Effect of structure and conformation on Raman trace scattering intensities in hydrocarbons.
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Can. J. Chem. (1996) 74, 1139. Analysis of polarizability derivatives in H2, HF, F2, N2 and CO with the theory of atoms in molecules.