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Dr. Moisés Domínguez

E-mail:

moises.dominguez@usach.cl

Biografía:

Doctor en Química, 2011, USACH, Chile. Químico, 2006, USACH, Chile.

Lineas de Investigación:

Química Orgánica.

Proyectos:

Toward a general model for the inverted solvatochromism of light-emitting and non-light-emitting sensors: A synthetic and computational study. Fondecyt Regular 1200116 (2020-2023). Responsable
A theoretical study of the dynamical relationship between structural elements of the protein copper, zinc superoxide dismutase implicated in the pathogenesis of amyotrophic lateral sclerosis. Fondecyt Regular 1200200 (2020-2023). Co-investigador
Radical probes, antioxidants and fluorescent markers in micro-heterogeneous media. Fondecyt Regular 1200192. (2020-2023). Co-investigador
Properties and applications of new perichromic probes and theoretical interpretation of their solvatochromism. Fondecyt Regular 1190045. (2019-2022). Co-investigador
Unveiling the inverted solvatochromism of organic and organometallic sensors. Fondecyt -Regular 1240893. (2024-2027). Responsable
Theoretical Search for Common Dynamical Features in ALS-Linked Mutants of Copper, Zinc Superoxide Dismutase Fondecyt Regular 1240992. (2024-2027). Co-investigador
Probing environmental effects on photochemical processes. Fondecyt Regular 1240302. (2024-2027). Co-investigador

Últimas Publicaciones:

1.- M. Vidal, M. C. Rezende, C. Pastene, C. Aliaga, M. Domínguez*. (2018). Solvatochromism of conjugated 4-N,N-dimethylaminophenyl-pyridinium donor-acceptor pairs. New J. Chem.

2.- R. Mera-Adasme*, M. Domínguez* (2018). A computationally-derived model for the solvatochromism of p-phenolates with high predictive power. Phys. Chem. Chem. Phys.

3.- J. Rodríguez-Aguilar, M. Vidal, C. Pastenes, C. Aliaga,* M. C. Rezende and M. Domínguez* (2018). The Solvatofluorochromism of 2,4,6-Triarylpyrimidine Derivatives. Photochem. Photobiol.

4.- C. Aliaga, M. Vidal, C. Pastenes, M. C. Rezende*, M. Domínguez*. (2019). Solvatofluorochromism of Conjugated 4-Methoxyphenyl-Pyridinium Electron Donor-Acceptor Pairs. Dyes Pigm.

5.- R. Mera-Adasme*, M. Domínguez*, O. Denis-Alpizar. (2019). A benchmark for the size of the QM system required for accurate hybrid QMMM calculations on the metal site of the protein copper, zinc superoxide dismutase. J. Mol. Mod.

6.- M. Domínguez*, R. Mera-Adasme*, M. C. Rezende. Insights into the halosolvatochromism of a bithiophene π* probe Spectrochim. Acta A

7.- M. Vidal, C. Pastenes, M. C. Rezende, C. Aliaga, M. Domínguez* (2019). The inverted solvatochromism of protonated ferrocenylethenyl-pyrimidines: the first example of the solvatochromic reversal of a hybrid organic/inorganic dye. Org. Chem. Front.

8.- R. Mera-Adasme, M. C. Rezende, M. Domínguez* (2020). On the physical-chemical nature of solvent polarizability and dipolarity. Spectrochim. Acta.

9.- C. Aliaga, M. Domínguez, P. Rojas, Marcos C. Rezende* (2020) A comparison of multiparametric methods for the interpretation of solvent-dependent chemical processes. Mol. Liq.

10.- C. E. A. de Melo, M. Domínguez, M. C. Rezende, and V. G. Machado* (2021). Solvatochromism of dyes inspired in Effenberger’s probe. Dyes and Pigm

11.- M. Vidal, J. Rodriguez-Aguilar, I. Aburto, C. Aliaga, M. Domínguez*. (2021). Reactivity of 4-pyrimidyl sulfonic esters in Suzuki-Miyaura cross-coupling reactions in water. ChemistrySelect

12.- R. Mera-Adasme, D. Moraga, R. Medina, M. Domínguez* (2022). Mapping the solute-solvent interactions for the interpretation of the three types of solvatochromism exhibited by phenolate-based dyes. J. Mol. Liq.

13.- I. Aburto, M. Muñoz, M. Vidal, C. Aliaga, M. Domínguez* (2022). Extending the π-system of inverted solvatochromic phenolate-based dyes shifts their inversion point due to an increment in their sensitivity to solvent polarizability. J. Mol. Liq.

14.- Aracena*, M. Domínguez* (2022). Computational Quantification of the Zwitterionic/Quinoid Ratio of Phenolate Dyes for Their Solvatochromic Prediction. Molecules

15.- I. Aburto, F. Martínez-Gómez, C. Aliaga, M. Domínguez*. (2023). Ferrocene analogs of Brooker’s merocyanine: a new library of organometallic inverted solvatochromic dyes. Org. Chem. Front.

16.- M. Muñoz, P. Rojas, M. Vidal, C. Aliaga, M. Domínguez*. (2023) Tuning the solvatochromic inversion of Brooker’s merocyanine analogs. J. Mol. Liq.

17.- A. Cortés-Villena, I. Soriano-Díaz, M. Domínguez, M. Vidal, P. Rojas, C. Aliaga, A. Giussani, A. Doménech-Carbó, E. Ortí, R.E. Galian, J. Pérez-Prieto. (2023). Governing the emissive properties of 4-aminobiphenyl-2-pyrimidine push–pull systems via the restricted torsion of N,N -disubstituted amino groups. Front. Chem.

18.- D. Moraga, F. Malinao, M. Vidal, C. Aliaga, M. Domínguez* (2024). Curving the solvatochromic tendency of pyridinium phenolate sensors by increasing their sensitivity to solvent polarizability. J. Mol. Liq.

19.- F. Melinao, M. Vidal, C. Aliaga, M. Domínguez*. (2024). Inverting the solvatochromism of pyridinium-N-phenolate dyes by the addition of a second pyridinium unit. J. Org. Chem.

20.- G. P. Pereira, R. Alessandri, M. Domínguez, R. Araya-Osorio, L. Grünewald, L. Borges-Araújo, S. Wu, S. J. Marrink, P. C. T. Souza*, R. Mera-Adasme* (2024). Bartender: Martini 3 Bonded Terms via Quantum Mechanics-based Molecular Dynamics. J. Chem. Theor. Comput.