Robert M. Parrish Contact Information Education Publications Department of Chemistry Stanford University Stanford, CA 94305 USA Georgia Institute of Technology Georgia Institute of Technology Stanford University 813.546.2470 robparrish@gmail.com Mechanical Engineering Chemistry Postdoctoral Fellow, Chemistry B.S., 2010 Ph.D., 2015 2015 -present Five Publications Related to the Proposed Research: R.M. Parrish, E.G. Hohenstein, N.F. Schunck, C.D. Sherrill, and T.J. Martı́nez, “Exact tensor hypercontraction: A universal technique for the resolution of matrix elements of local, finite-range N -body potentials in many-body quantum problems,” Phys. Rev. Lett., 111, 132505 (2013) R.M. Parrish, E.G. Hohenstein, T.J. Martı́nez and C.D. Sherrill, “Tensor hypercontraction II. Leastsquares renormalization,” J. Chem. Phys., 137, 224106 (2012) R.M. Parrish, C.D. Sherrill, E.G. Hohenstein, S.I.L. Kokkila, and T.J. Martı́nez, “Communication: Acceleration of coupled cluster singles and doubles via orbital-weighted least-squares tensor hypercontraction,” J. Chem. Phys., 140, 181102 (2014) R.M. Parrish, E.G. Hohenstein, T.J. Martı́nez, and C.D. Sherrill, “Discrete variable representation in electronic structure theory: Quadrature grids for least-squares tensor hypercontraction,” J. Chem. Phys., 138, 194107 (2013) E.G. Hohenstein, R.M. Parrish, C.D. Sherrill and T.J. Martı́nez, “Communication: Tensor hypercontraction III. Least-squares tensor hypercontraction for the determination of correlated wavefunctions,” J. Chem. Phys., 137, 221101 (2012) Five Other Significant Publications: R.M. Parrish and C.D. Sherrill, “Communication: Quantum mechanical evaluation of π-π vs. substituent-π interactions in π-stacking: Direct evidence for the Wheeler-Houk picture,” J. Am. Chem. Soc., 136, 17386 (2014) R.M. Parrish, T.M. Parker, and C.D. Sherrill, “Chemical assignment of symmetry adapted perturbation theory interaction energy components: The functional-group SAPT partition,” J. Chem. Theory Comput., 10, 4417 (2014) R.M. Parrish and C.D. Sherrill, “Spatial assignment of symmetry adapted perturbation theory interaction energy components: The atomic SAPT partition,” J. Chem. Phys., 141, 044115 (2014) R.M. Parrish, Jérôme F. Gonthier, Clémence Corminbœuf, and C.D. Sherrill, “Communication: Practical Intramolecular Symmetry Adapted Perturbation Theory via Hartree-Fock Embedding,” J. Chem. Phys., 143, 051103 (2015) R.M. Parrish, E.G. Hohenstein, and C.D. Sherrill, “Tractability gains in symmetry-adapted perturbation theory including coupled double excitations: CCD+ST(CCD) dispersion with natural orbital truncations,” J. Chem. Phys., 139, 174102 (2013) Synergistic Activities Major contributor to the open-source Psi4 ab initio electronic structure theory package, 20101 present. Reviewer for J. Chem. Phys. and J. Phys. Chem. A., 2010-present. Judge for Georgia Tech’s Annual Undergraduate Research Spring Symposium, 2010-2015. Reviewer of quarterly grant proposals for Georgia Tech’s President’s Undergraduate Research Award (PURA), 2011-2015. Regional committee chair for the Georgia Tech President’s Scholarship Program (PSP) and the Penny and Roe Stamps Leadership Scholarship, 2011-2015. Mentor for the NSF’s Research Experience for Undergraduates (REU) program, Summer 2014. Mentoree Kevin Hannon is now a matriculated graduate student in Chemistry at Emory University. Collaborators Edward Hohenstein, City College of New York Nicholas Schunck, Lawrence Livermore National Lab Edmond Chow, Georgia Institute of Technology Jean-Luc Brédas, King Abdullah University of Science and Technology Thomas Körzdörfer, University of Potsdam Daniel Cheney, Bristol-Myers Squibb Justin Turney, University of Georgia Andrew Simmonett, National Institute of Health 2