41 Publications (Page 1 of 2)
2022
Double Rydberg anions, Rydberg radicals and micro-solvated cations with ammonium–water kernels
Opoku, ErnestOpoku, ErnestPawłowski, FilipPawłowski, FilipOrtiz, Joseph Vincent and Ortiz, Joseph V
Physical Chemistry Chemical Physics : PCCP, vol. 24, (no. 30), pp. 18347-18360, 2022. | Journal Article
2019
Aufbau Principle for Diffuse Electrons of Double-Shell Metal Ammonia Complexes: The Case of M(NH3)4@12NH3, M = Li, Be+, B2
Ariyarathna, Isuru RAriyarathna, Isuru RAriyarathna, Isuru R.Pawłowski, FilipPawłowski, FilipPawłowski, FilipOrtiz, Joseph VincentOrtiz, Joseph VincentOrtiz, Joseph VincentMiliordos, EvangelosMiliordos, Evangelos and Miliordos, Evangelos
The Journal of Physical Chemistry A, 2019-11-06. | Journal Article
 
Dyson Orbitals and Double Rydberg Anions: Methylated, Annulated and Paramagnetic
Díaz-Tinoco, Manuel Alejandro and Ortiz, Joseph Vincent
The Journal of Physical Chemistry A, 2019-12-03. | Journal Article
 
Transition-metal solvated-electron precursors: diffuse and 3d electrons in V(NH3)0,±6
Almeida, Nuno M. SAlmeida, Nuno M. SAlmeida, Nuno M. S.Pawłowski, FilipPawłowski, FilipPawłowski, FilipOrtiz, Joseph VincentOrtiz, Joseph VincentOrtiz, Joseph VincentMiliordos, EvangelosMiliordos, Evangelos and Miliordos, Evangelos
Physical Chemistry Chemical Physics, 2019-00-00. | Journal Article
 
Transition-metal solvated-electron precursors: diffuse and 3d electrons in V(NH3)0,±6Electronic supplementary information (ESI) available: Fig. S1 depicts the active orbitals. Optimal geometries and harmonic vibrational frequencies, are listed in Tables S1-S6. P3+ electron binding energies are given in Tables S7-S14. Table S15 lists adiabatic electron binding energies and Table S16 lists absolute energies for all optimal C2v and C1 structures. See DOI: 10.1039/c8cp07420h
Almeida, Nuno M. SAlmeida, Nuno M. SPaw owski, FilipPaw owski, FilipOrtiz, Joseph VincentOrtiz, Joseph VincentMiliordos, Evangelos and Miliordos, Evangelos
(no. 13), pp. 797, 20190327. | Journal Article
2018
Aufbau Rules for Solvated Electron Precursors: Be(NH3)4 0,± Complexes and Beyond
Ariyarathna, Isuru R.Ariyarathna, Isuru RAriyarathna, Isuru RKhan, Shahriar NKhan, Shahriar NKhan, Shahriar N.Pawłowski, FilipPawłowski, FilipPawłowski, FilipOrtiz, Joseph VincentOrtiz, Joseph VincentOrtiz, Joseph VincentMiliordos, EvangelosMiliordos, Evangelos and Miliordos, Evangelos
The Journal of Physical Chemistry Letters, vol. 9, (no. 1), pp. 88, 20180104. | Journal Article
 
Molecules mimicking atoms: monomers and dimers of alkali metal solvated electron precursors.
Ariyarathna, Isuru RAriyarathna, Isuru RAriyarathna, Isuru R.Pawłowski, FilipPawłowski, FilipPaw owski, FilipOrtiz, Joseph VincentOrtiz, Joseph VincentOrtiz, Joseph VincentMiliordos, EvangelosMiliordos, Evangelos and Miliordos, Evangelos
Physical chemistry chemical physics : PCCP, September 13, 2018. | Journal Article
2017
Aufbau Rules for Solvated Electron Precursors: Be(NH 3 ) 4 0,± Complexes and Beyond
Ariyarathna, Isuru RanganaAriyarathna, Isuru RanganaKhan, Shahriar NKhan, Shahriar NPawlowski, FilipPawlowski, FilipOrtiz, Joseph VincentOrtiz, Joseph VincentMiliordos, Evangelos and Miliordos, Evangelos
The journal of physical chemistry letters, 2017-Dec-12. | Journal Article
2016
Ab initio electron propagator calculations of transverse conduction through DNA nucleotide bases in 1-nm nanopore corroborate third generation sequencing.
Kletsov, Aleksey AGlukhovskoy, Evgeny GChumakov, Aleksey S and Ortiz, Joseph V
Biochimica et biophysica acta, vol. 1860, (no. 1 Pt A), pp. 140-145, January 2016. | Journal Article
 
Comment on "Are polynuclear superhalogens without halogen atoms probable? A high-level ab initio case study on triple-bridged binuclear anions with cyanide ligands" [J. Chem. Phys. 140, 094301 (2014)].
Díaz-Tinoco, Manuel and Ortiz, J V
The Journal of chemical physics, vol. 145, (no. 14), pp. 147101, October 14, 2016. | Journal Article
 
Comment on: "Probing the Properties of Polynuclear Superhalogens without Halogen Ligand via ab Initio Calculations: A Case Study on Double-Bridged [Mg2 (CN)5 ](-1) Anions" by Li et al.
Díaz-Tinoco, Manuel and Ortiz, Joseph Vincent
(pp. 2945-2946). September 19, 2016
 
Composite electron propagator methods for calculating ionization energies.
Díaz-Tinoco, ManuelDolgounitcheva, OZakrzewski, V G and Ortiz, J V
The Journal of chemical physics, vol. 144, (no. 22), pp. 224110, June 14, 2016. | Journal Article
 
Correction to Accurate Ionization Potentials and Electron Affinities of Acceptor Molecules IV: Electron-Propagator Methods.
Dolgounitcheva, ODíaz-Tinoco, ManuelZakrzewski, V GRichard, Ryan MMarom, NoaSherrill, C David and Ortiz, J V
Journal of chemical theory and computation, December 16, 2016. | Journal Article
2015
NR2 and P3+: Accurate, Efficient Electron-Propagator Methods for Calculating Valence, Vertical Ionization Energies of Closed-Shell Molecules.
Corzo, H HGalano, AnniaDolgounitcheva, OZakrzewski, V G and Ortiz, J V
The journal of physical chemistry. A, vol. 119, (no. 33), pp. 8813-8821, August 20, 2015. | Journal Article
2014
Computational tests of quantum chemical models for excited and ionized states of molecules with phosphorus and sulfur atoms.
Hahn, David KRaghuVeer, Krishans and Ortiz, J V
The journal of physical chemistry. A, vol. 118, (no. 19), pp. 3514-3524, May 15, 2014. | Journal Article
 
Electron propagator calculations on the ground and excited states of C60(-).
Zakrzewski, V GDolgounitcheva, O and Ortiz, J V
The journal of physical chemistry. A, vol. 118, (no. 35), pp. 7424-7429, September 4, 2014. | Journal Article
 
Valence-bound and diffuse-bound anions of 5-azauracil.
Corzo, H HDolgounitcheva, OZakrzewski, V G and Ortiz, J V
The journal of physical chemistry. A, vol. 118, (no. 34), pp. 6908-6913, August 28, 2014. | Journal Article
 
Vertical ionization energies of free radicals and electron detachment energies of their anions: a comparison of direct and indirect methods versus experiment.
Pérez-González, AdrianaGalano, Annia and Ortiz, J V
The journal of physical chemistry. A, vol. 118, (no. 31), pp. 6125-6131, August 7, 2014. | Journal Article
2013
A generalized any-particle propagator theory: prediction of proton affinities and acidity properties with the proton propagator.
Díaz-Tinoco, ManuelRomero, JonathanOrtiz, Joseph VReyes, Andrés and Flores-Moreno, Roberto
The Journal of chemical physics, vol. 138, (no. 19), pp. 194108, 2013/May/21. | Journal Article
 
Assignment of photoelectron spectra of halide-water clusters: contrasting patterns of delocalization in Dyson orbitals.
Dolgounitcheva, OZakrzewski, V G and Ortiz, Joseph V
The Journal of chemical physics, vol. 138, (no. 16), pp. 164317, 2013/Apr/28. | Journal Article
 
Direct ΔMBPT(2) method for ionization potentials, electron affinities, and excitation energies using fractional occupation numbers.
Beste, A.Vázquez-Mayagoitia, Álvaro and Ortiz, J V
The Journal of chemical physics, vol. 138, (no. 7), pp. 074101, 2013/Feb/21. | Journal Article
 
Electron propagator theory: an approach to prediction and interpretation in quantum chemistry
Ortiz, Joseph Vincent
Wiley Interdisciplinary Reviews: Computational Molecular Science, vol. 3, (no. 2), pp. 142, March/April 2013. | Journal Article
 
Photoelectron spectroscopy of the 6-azauracil anion.
Chen, JingBuonaugurio, AngelaDolgounitcheva, OlgaZakrzewski, V GBowen, Kit H and Ortiz, Joseph V
The journal of physical chemistry. A, vol. 117, (no. 6), pp. 1079-82, 2013/Feb/14. | Journal Article
2012
Electron detachment energies of aqueous and cluster halide anions from electron propagator calculations with the polarizable continuum model
Dolgounitcheva, OlgaZakrzewski, Viatcheslav G and Ortiz, Joseph Vincent
International Journal of Quantum Chemistry, vol. 112, (no. 24), pp. 3848, 15 December 2012. | Journal Article
 
Valence and diffuse-bound anions of noble-gas complexes with uracil.
Streit, LíviaStreit, L.Dolgounitcheva, O.Dolgounitcheva, OZakrzewski, V GZakrzewski, V.G.Ortiz, J.V. and Ortiz, Joseph V
The Journal of chemical physics, vol. 137, (no. 19), pp. 194310, 2012/Nov/21. | Journal Article