UNIVERSIDAD AUTONOMA DE SINALOA
FACULTAD DE CIENCIAS FÍSICOMATEMATICAS
Experiencia Profesional
Universidad Autonoma de Sinaloa
Profesor Investigador Tiempo Completo Titular C
Formación Académica
Licenciatura
Licenciatura en Física
Universidad Autonoma de Sinaloa
Maestría
Maestria con especialidad en Física
Universidad de Sonora
Doctorado
Doctorado en Física
Universidad Autonoma de Sinaloa
Idiomas
Ingles
Nivel conservacional: Medio
Nivel de lectura: Medio
Nivel de escritura: Medio
Fernando Javier Sánchez Rodríguez
DOCTORADO EN FÍSICA
Soy Doctor en Física, actualmente investigo dispositivos semiconductores en especial celdas solares de segunda generación, he dirigido tres tesis de licenciatura y una tesis de maestría en Física, he publicado 20 artículos de investigación en el area de celdas solares, en los cuales he acumulado mas de 400 citas, he sido revisor de mas de 10 revistas indexadas, actualmente soy editor invitado de la revista coatings de la editorial MDPI también soy editor asociado de chalcogenide letters revista de 1.3 de impacto indexada, he impartido clases por mas de 9 años en la Facultad de Ciencias Físico-Matematicas de la Universidad Autonoma de Sinaloa.
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Área de conocimiento: Físico-Matemáticas y Ciencias de la Tierra
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Grado: Doctorado
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Institución: Universidad Autonoma de Sinaloa
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Correo: sanchezr@uas.edu.mx
Producción Científica y Artículos de Divulgación
Artículos
Modification of perovskite/HTL interface with cooperative polymers bilayer (PTB7-Th/P3HT) to improve perovskite solar cell efficiency and
The path to overcome low efficiency values in SnS solar cells: An overview on the different current recombination mechanisms
Impact of loss mechanisms through defects on Sb2(S1-xSex)3/CdS solar cells with p-n structure
Artículos Arbi
Thin films of CdS: Cu, morphological, optical, structural and electrical properties
Artículos Index
Optimization of Coatings Materials of Cds/Snse Solar Cell Using Snte as Hole Transport Layer: An Overview of Different Recombination Mechanisms
Electric Field-Assisted Chemical Bath Deposition of ZnO Thin Films: Effects of Field Intensity, Polarity Inversion, and Air Agitation on Film Properties
Experimental and theoretical advances in Cu2ZnSn (S, Se) 4 solar cells
The path to overcome low efficiency values in SnS solar cells: An overview on the different current recombination mechanisms
Synthesis of nanoparticles starting from CdS/CdSe bilayers deposited by chemical bath deposition for solar cell applications
Towards the CdS/SnSe solar cell optimization: Understanding the transport mechanisms
Modification of perovskite/HTL interface with cooperative polymers bilayer (PTB7-Th/P3HT) to improve perovskite solar cell efficiency and stability
Analytical Modeling and Optimization of Cu2ZnSn(S,Se)4 Solar Cells with the Use of Quantum Wells under the Radiative Limit
Impact of loss mechanisms through defects on Sb2 (S1-xSex) 3/CdS solar cells with pn structure
CdTe colloidal-gel: Synthesis and thin films deposition applied to solar cells
A proposal to enhance SnS solar cell efficiency: The incorporation of SnSSe nanostructures
Impact of PC71BM layer on the performance of perovskite solar cells prepared at high moisture conditions using a low temperature annealed ZnO thin film as the …
Optimization of CH3NH3PbI3 perovskite solar cells: A theoretical and experimental study
CdS/ZnS Bilayer Thin Films Used As Buffer Layer in 10%-Efficient Cu2ZnSnSe4 Solar Cells
The effect of Se/(S+ Se) compositional ratios on the performance of SnS-based solar cell: a numerical simulation
A theoretical study on Sb2S3 solar cells: the path to overcome the efficiency barrier of 8%
Optimization of CdxZn1-xS compound from CdS/ZnS bi-layers deposited by chemical bath deposition for thin film solar cells application
Libros
Coatings and Thin-Film Technologies: Chapter CdTe thin films: deposition techniques and applications
IntechOpen
Coautor
2018