Managing the redox potential of PCET in Grotthuss-type proton wires

334. E. Odella, M. Secor, E. A. R. Cruz, W. D. Guerra, M. N. Urrutia, P. A. Liddell, T. A. Moore, G. F. Moore, S. Hammes-Schiffer, and A. L. Moore, “Managing the redox potential of PCET in Grotthuss-type proton wires,” J. Am. Chem. Soc. 144, 16524-16534 (2022). DOI: 10.1021/jacs.2c05820

Artificial neural networks as propagators in quantum dynamics

313. M. Secor, A. V. Soudackov, and S. Hammes-Schiffer, “Artificial neural networks as propagators in quantum dynamics,” J. Phys. Chem. Lett. 12, 10654-10662 (2021). DOI: 10.1021/acs.jpclett.1c03117

 

Multi PCET in symmetrically substituted benzimidazoles

312. E. Odella, M. Secor, M. Elliot, T. L. Groy, T. A. Moore, S. Hammes-Schiffer, and A. L. Moore, “Multi PCET in symmetrically substituted benzimidazoles,” Chem. Sci. 12, 12667-12675 (2021). DOI: 10.1039/D1SC03782J

Artificial neural networks as mappings between proton potentials, wave functions, densities, and energy levels

299. M. Secor, A. V. Soudackov, and S. Hammes-Schiffer, “Artificial neural networks as mappings between proton potentials, wave functions, densities, and energy levels,” J. Phys. Chem. Lett. 12, 2206-2212 (2021).

The role of intact hydrogen-bond networks in multiproton-coupled electron transfer

294. W. D. Guerra, E. Odella, M. Secor, J. J. Goings, M. N. Urrutia, B. L. Wadsworth, M. Gervaldo, L. E. Sereno, T. A. Moore, G. F. Moore, S. Hammes-Schiffer, and A. L. Moore, “The role of intact hydrogen-bond networks in multiproton-coupled electron transfer,” J. Am. Chem. Soc. 142, 21842-21851 (2020).

Inhomogeneity of interfacial electric fields at vibrational probes on electrode surfaces

272. Z. K. Goldsmith, M. Secor, and S. Hammes-Schiffer, “Inhomogeneity of interfacial electric fields at vibrational probes on electrode surfaces,” ACS Cent. Sci. 6, 304-311 (2020).