DR. JUAN LEOPOLDO OLGUIN TALAVERA
General information:
Name: Juan Leopoldo Olguin Talavera
Place of birth: Mexico City
Age: 45 years
Schooling:
Degree Date obtained Place
PhD 7 May 2011 Dunedin, New Zealand (University of Otago)
Master’s Degree May 11, 2006 Mexico City, Mexico (UNAM)
Bachelor’s Degree September 26, 2003 Mexico City, Mexico (UNAM)
Professional experience:
Date Place Position
January 2017-present Cinvestav, Mexico City Senior Researcher 3B
January 2015 - Dec. 2016 Cinvestav, Mexico City Postdoctoral fellow, Conacyt
January 2012-July 2014 University College Dublin, Postdoc Irish Research Council
Dublin, Ireland.
April 2011-Dec. 2012 University of Otago, Postdoc
Dunedin, New Zealand
June 2010-March 2011 University of Otago, Research Assistant
Dunedin, New Zealand
Junio 2006-Marzo 2007 Claris Lifesciences, Gerente de Proyectos
Mexico City
Current Position and Category
Cinvestav 3B Researcher
Department of Chemistry, Cinvestav Mexico.
Research or development products
I have published 25 articles in international peer-reviewed and indexed journals. Two review articles in Coord. Chem. Rev., and one book chapter, with a Hindex of 15 and more than 1000 citations.
2.1 Recent research articles in internationally renowned journals
2.1.a.1 Mendoza-Báez, R.; Molina-Renteria, A.; Olguín, J. Nitro Group and K+-Based Secondary Building Units for the Self-Assembly of 3D Coordination Polymers Built on Dinuclear Dianionic Helicate Connectors. CrystEngComm 2024, 26 (18), 2346–2352. https://doi.org/10.1039/D4CE00255E. , and Front Cover feature
2.1.a.2 Plaza-Lozano, D.; Ramírez-Palma, D.; Vela, A.; Olguín, J. High Spin Iron(Ii) Complexes Based on Imidazolyl- and 1,2,3-Triazolyl-Thione Ligands and NCE (E = S, Se or BH3) Co-Ligands: Effect of the S-Functional Group on the Structural and Magnetic Properties. New J. Chem. 2022, 46 (31), 14910–14921. https://doi.org/10.1039/D2NJ01989B.
2.1.a.3 Plaza-Lozano, D.; Conde-Gallardo, A.; Olguín, J. Spin Crossover vs. High-Spin Iron(II) Complexes in N4S2 Coordination Sphere Containing Picolyl-Thioether Ligands and NCE (E=S, Se and BH3) Co-Ligands. Eur. J. Inorg. Chem., 2021, 2846–2856.
2.1.a.4 Plaza‐Lozano, D.; Morales‐Martínez, D.; González, F.J. and Olguín, J., Homoleptic Mononuclear Tris‐Chelate Complexes of FeII, CoII, NiII, and ZnII Based on a Redox‐Active Imidazolyl‐2‐thione Ligand: Structural and Electrochemical Correlation. Eur. J. Inorg. Chem, 2020: 1562-1573. doi:10.1002/ejic.202000120 and Cover feature. Seleccionado para el suplemento especial “Inorganic Chemistry in Latin America” y revisado por pares.
2.1.a.5 Sánchez-Viveros, J. M.; Bucio-Ortega, J.; Ortiz-Pastrana N.; Olguín, J.; Mononuclear complexes of FeII, CoII and CoIII containing imine-based ligands of 8-aminoquinoline and 7-aminoindazole: spin state tuning of FeII complexes in solution; New Journal of Chemistry, 2019, 43, 9776-9783. doi.org/10.1039/c9nj01622h, and Front Cover feature.
2.1.a.6 Pretorious, R.; Olguín, J.; Albrecht, M., Carbohydrate-Functionalized 1, 2, 3-Triazolylidene Complexes for Application in Base-Free Alcohol and Amine Oxidation, Inorganic Chemistry,Vol 56, No. 20, 2017, pp. 12410–12420, DOI: 10.1021/acs.inorgchem.7b01899.
2.1.a.7 Olguín, J.; Paz-Sandoval, M.A., Synthesis and transfer hydrogenation catalysis of chelating triazolylidene ruthenium (II) complexes: Effect of the pendant arm, p-cymene, acetonitrile and butadienesulfonyl co-ligands, Journal of Organometallic Chemistry, Vol. 848, 2017, pp. 309–317, DOI: 10.1016/j.jorganchem.2017.08.012.
2.2 Artículos de revisión en libros publicados por una casa editorial reconocida o revistas de circulación internacional.
2.2.1. Olguín, Juan; Brooker, Sally; Spin crossover in discrete polynuclear complexes, in Spin-Crossover materials: properties and applications, ed. M. A. Halcrow, John Wiley & Sons Ltd, Oxford, UK, 2013, pp. 77-120, DOI: 10.1002/9781118519301.ch3.
2.2.2 Olguín, J.; Brooker, S.; Spin crossover active iron(II) complexes of selected pyrazole-pyridine/pyrazine ligands, Coordination Chemistry Reviews, Vol. 255, 2011, pp. 203-240, DOI 10.1016/j.ccr.2010.08.002.
2.2.3 Olguín, J.; Unusual metal centres/coordination spheres in spin crossover compounds. Coordination Chemistry Reviews, 2020, (407), 213148. https://doi.org/10.1016/j.ccr.2019.213148.
Formación de recursos humanos:
Se han titulado 3 alumnos de licenciatura y 1 alumno de doctorado del grupo de investigación a mi cargo. Actualmente se encuentran realizando sus trabajos doctorales 3 alumnos.
3.1.a.1 Plaza Lozano, Diego (2021) Cinvestav. Tesis: Estudio de las propiedades magnéticas de complejos de hierro(II) spin-crossover activos inmersos en la esfera de coordinación {N4S2} (Doctorado). Cinvestav Unidad Zacatenco. Ciencias Químicas. Asesor: Juan Leopoldo Olguín Talavera (1 asesor).
3.2. Dirección de otras tesis
3.2.1 Alan Molina Rentería (ESIQIE-IPN). Diciembre 2019. Título de Tesis: Síntesis y caracterización de compuestos dinucleares derivados de ligantes iminas por autoensamblado. Co-asesores: Dr. Juan Olguín Talavera y Dr. Elim Albiter Escobar.
3.2.2 Job Bucio Ortega. Tesis licenciatura (ESIQIE-IPN). Enero 2020. Título de tesis: Complejos de hierro (II), níquel (II) y zinc (II) derivados de ligantes diimina con esferas de coordinación poco comunes promovidas por enlaces de hidrógeno. Co-asesores: Dr. Juan Olguín Talavera y Dr. Elim Albiter Escobar.
3.2.3 Genesis Ramos Guzmán. Tesis licenciatura (ESIQIE-IPN). Marzo 2021. “Estudio de la cooperatividad RuII – M (M = RuII o AgI) en reacciones catalíticas con complejos mono y dinucleares de RuII – NHC: Síntesis y caracterización”. Co-asesores: Dr. Juan Olguín Talavera y Dra. Pamela Guerra Blanco.
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