INAOE | Electrónica | Directorio | Investigadores | Joel Molina Reyes
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Dr. Joel Molina Reyes

Investigador titular b

investigador nacional nivel 1

Correo electrónico:

Extensión: 2105

Formación Académica:

Doctorado obtenido en: Tokyo Institute of Technology

Título de Tesis: “A Study on the Reliability of Metal Gate–La2O3 Thin Film Stacked Structures”

Maestría en Ciencias obtenida en: Instituto Nacional de Astrofísica. Óptica y Electrónica

Título de Tesis: “A Study of Dielectric–Silicon Structures and their Application to Ion Sensors ISFET–type”

Licenciatura obtenida en: Universidad Veracruzana
Título de Tesis: Exención por promedio académico.

Líneas de Investigación:

- Gate stack engineering for advanced CMOS technology.

- Microelectronics, Nanoelectronics.

- Physics and technology of nanostructured electron devices.

- Physics of carrier transport, conduction mechanisms and charge trapping in    advanced electron devices.

- Physics, chemistry and engineering of solid-state interfaces.

- Physical, chemical, electrical, thermal, magnetical and reliability characterization of materials and advanced electron devices (XPS, XRD, TEM, SEM, EDS, FTIR, AFM, EBSD, I-V, C-V, Reliability, etc).

- Advanced integrated circuit fabrication technology (FEOL/BEOL) and processing of materials and devices.

- Advanced transistor architectures: MOSFET, FinFET, DG-FET, Hall-FET, IGFET, TFT, etc.

- Development of ultra-thin films for advanced logic, memory and sensing technologies.

- Development of photocatalytic nanostructures for bacteria inactivation.

- Development of photocatalytic nanostructures for gas sensing and simultaneous energy conversion/storage.

- Design, fabrication and characterization of electronic materials for biological and medical applications.



- University of Texas at Dallas. "Gate Stack Engineering for the Next-Generation CMOS ". 2018-2019.

- Singapore University of Technology and Design. "Nanoscale Characterization of High-k". 2016-2019.

- CNyN-UNAM. "Yttria-Stabilized Zirconia (YSZ) for Application in Solid-State Batteries". 2017-2018.

- CINVESTAV. “Thermodynamic Stability of HfO2 Films after Doping with Al2O3/ZrO2 by ALD”. 2014-2017.

- UDLAP. "Field-Effect Devices for Sensing DNA Hybridizing Events". 2018-2019.

- UDLAP. “Synthesis of Metal-Oxide Nanoparticles with Enhanced Photocatalytic Activity”. 2013-2018.

- Universidad Autónoma de Sinaloa. “Application of Stacked Ultra-Thin Films in Optometry”. 2018-2019.

- Universidad Autónoma Metropolitana. “Development of Integrated ISFET Sensors for pH Measurement in Water Samples Intended for Human Consumption”. 2014-2016.

- Universidad Veracruzana. “Application of Integrated ISFET Sensors for Ruminal pH and Temperature Measurements in Local Cattle being Adapted to Climate Change”. 2014-2015.

- CONACyT. "Fundamentals, Characterization and Application of ALD Materials". 2017. DADC2017/279695.

- CONACyT. "Taller Nacional de MEMS con Aplicaciones en Ingeniería Biomédica". 2016-2018.

- CONACyT. “Physical and Chemical Structure of Nanofilms to their Functional Properties”. CB2012/179304.

- CONACyT. “ALD of High-k Materials and their Characterization for Nano-CMOS”. CB2009/135027.

- CONACyT. “Electromagnetic Emission & Interference in Nanometer MOS IC Technology”. CB2008/100028.

- CONACyT. “Structure of HfO2 Nano Thin-Films”. CB2007/080285.

Space Charge LLC. "Nanoscale Electrical Energy Storage and Microchip Fabrication". 2016-2017.

- Team Technologies. “Design and Fabrication of Integrated RF Switches”. 2012-2016.

- Freescale, Inc., “ISFETs with Integrated Membranes for Selective Ion Detection”. 2011-2012.

- Freescale, Inc. “FET Devices for Biomedical Applications”. 2010-2012.

- Intel. “High-k Gated MOS Devices for MOHOS-type NVM Devices”. 2010-2011.


Tesis dirigidas recientes: 


- Maria Alejandra Romero Morán, “Inactivation of Common Bacteria in Water Sources using Nanostructured Materials with Enhanced Photocatalytic Activity”. INAOE (2016-2019).IN PROCESS.

- Héctor Manuel Uribe Vargas, “Modeling of the Carrier Transport Properties of Nanostructured Devices with Application to Advanced Logic and Memory Technologies”. INAOE (2018).

- Erika Póndigo de Los Ángeles, “Modeling and Characterization of Multi-Directional Gate Current Components in Nano-Scaled MOSFETs”, co-directed with Dr. Edmundo Gutierrez. INAOE (2014).



- Omar López, “A Study on FET Devices based on Schottky Barrier and Metal-Gate/high-k Stacked Thin-Films”. INAOE (2017).

- Alba Arenas Hernandez, "Synthesis and Characterization of Titanium Dioxide Nanotubes". co-directed with Dr. Carlos Zuñiga. INAOE (2016).

- Natiely Hernandez Sebastian, "Fabrication and Characterization of Microelectrodes on Flexible Substrates for Electrical Stimulation of the Cornea". co-directed with Dr. Wilfrido Calleja. INAOE (2015).

- René Valderrama, “Characterization of Memristive Devices based on MIM Structures and Fabricated at Low Temperature”. INAOE (2013).

- Berni Manolo Pérez, “Design, Fabrication and Electrochemical Characterization of ISCAP Sensing Integrated Devices for pH Sensing Applications”, co-directed with Dr. Alfonso Torres. INAOE (2013).

- Erick Guerrero, “Conditioning Circuit Architectures for Chemical Sensors”, co-directed with Dr. Maria Teresa Sanz. INAOE (2012). 

- Rafael Ortega, “HfO2 Nanoparticles as Charge Trapping Layer for Memory Devices”, co-directed with Dr. Alfonso Torres. INAOE (2012). 

- Ana Luz Muñoz, “Spin-On-Glass as Gate Dielectric in MOS Devices and as a Matrix for Embedding HfO2-Nanoparticles”, co-directed with Dr. Alfonso Torres. INAOE (2010).


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Última modificación :
30-08-2018 a las 11:55 por Laura Toxqui Olmos

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