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Dra. Gerli-Candia, Lorena
Nombre de publicación
Dra. Gerli-Candia, Lorena
Nombre completo
Gerli Candia, Lorena Andrea
Facultad
Email
loregerli@ucsc.cl
ORCID
Scopus Author ID
6506865225
Researcher ID
GLU-4473-2022
2 results
Research Outputs
Now showing 1 - 2 of 2
- PublicationMinor composition compounds of algerian herbal medicines as inhibitors of sars-cov-2 main protease: Molecular docking and admet properties prediction(Journal of the Chilean Chemical Society, 2021)
; ;Yabrir, B. ;Belhassan, A. ;Lakhlifi, T. ;Salgado, G. ;Bouachrine, M. ;Munoz, P.Ramirez, R.The identification of drugs against the new coronavirus (SARS-CoV-2) is an important requirement. Natural products are substances that serve as sources of beneficial chemical molecules for the development of effective therapies. In this study, 187 natural compounds from Algerian herbal medicines were docked in the active site of SARS-CoV-2 main protease. The result indicates that Piperitol, Warfarin, cis-calamenen-10-ol and α-Cadinene are the structures with best affinity in the binding site of the studied enzyme and all of them respect the conditions mentioned in Lipinski’s rule and have acceptable ADMET proprieties; so, these compounds could have more potent antiviral treatment of COVID-19 than the studied compounds, and they have important pharmacokinetic properties and bioavailability. - PublicationStudy of low band gap DSSCs based on bridging bithiophene and biphenyl: Theoretical investigation(Springer Nature, 2016)
; ;Sadiki, Y. ;Bouzzine, S. ;Bejjit, L. ;Salgado-Morán, Guillermo ;Hamidi, M. ;Bouachrine, M. ;Serein-Spirau, F. ;Lère-Porte, J. ;Marc-Sotiropoulos, J.Glossman-Mitnik, D.In this paper, theoretical study using density functional theory (DFT) method (B3LYP level with 6-31G(d,p)) of four novel low band gap acceptor–donor organic materials based on thiophene and phenyl and linked to cyanoacrylic acid as acceptor group are investigated. Different electron side groups were introduced to investigate their effects on the electronic structure; the HOMO, LUMO, gap energy, ionization potentials, electron affinities and open circuit voltage (Voc) of these compounds have been calculated and reported in this paper. The electronic absorption and emission spectra of these dyes are studied by time-dependent density functional theory calculations. A systematic theoretical study of such compound has not been reported as we know. Thus, our aim is first, to explore their electronic and spectroscopic properties on the basis of the DFT quantum chemical calculations. We think that the presented study of structural, electronic and optical properties for these compounds could help in designing more efficient functional photovoltaic organic materials.