Dr. JOSÉ GUILLERMO TORRES RENDON
Resumen curricular:
El Dr. José Guillermo Torres Rendón es profesor investigador del CUCEI de la Universidad de Guadalajara. Es Ingeniero Químico, Maestro en Ciencias en Ingeniería Química y Doctor en Ciencias Naturales. La totalidad de su trabajo doctoral se realizó en el Instituto DWI-Leibniz para Materiales Interactivos en Alemania, el cual forma parte de la también alemana Universidad RWTH Aachen, de donde se graduó con honores Magna Cum Laude. Desde 2017 es miembro del Sistema Nacional de Investigadores nivel 1 y cuenta con Perfil PRODEP. Es parte del cuerpo académico consolidado Ciencia y Tecnología de Materiales Lignocelulósicos. El Dr. Torres combina conceptos de nanotecnología, manufactura aditiva, biomedicina y electrohilado para preparar biomateriales sustentables basados en polímeros naturales.
Perfil de Investigador SNII:
Perfil PRODEP:
Bases de datos bibliográficas:
Publicaciones del académico:
- Evaluation of the Fungitoxic Effect of Extracts from the Bark of Quercus laeta Liebm, the Cob of Zea mays and the Leaves of Agave tequilana Weber Blue Variety against Trametes …
- Thermoplastic Starch Biocomposite Films Reinforced with Nanocellulose from Agave tequilana Weber var. Azul Bagasse
- Physicomechanical Characterization of Poly(acrylic acid-co-acrylamide) Hydrogels Reinforced with TEMPO-oxidized Blue Agave Cellulose Nanofibers
- Physicomechanical and Morphological Characterization of Multi-Structured Potassium-Acrylate-Based Hydrogels
- Antifungal Activity of Datura stramonium L. Extractives against Xylophagous Fungi
- Utilization of Wood Flour from White Oak Branches as Reinforcement in a Polypropylene Matrix: Physical and Mechanical Characterization
- Physicomechanical characterization of poly (acrylic acid-co-acrylamide) hydrogels reinforced with TEMPO-oxidized blue agave cellulose nanofibers
- Preparation of Agave tequilana Weber nanocrystalline cellulose and its use as reinforcement for acrylic hydrogels
- Composite based on recycled high-density polyethylene-sugarcane bagasse-tire rubber waste: formulation, mechanical and workability evaluation
- Preparation and Characterization of Nanocomposites Based on Linear Medium Density Polyethylene/Cellulose Nanofibers from Agave tequilana Bagasse Waste
- Study of green nanocomposites based on corn starch and cellulose nanofibrils from Agave tequilana Weber
- Facile Photochemical Modification of Silk Protein–Based Biomaterials
- Studies on Mechanical Performance of Wood-Plastic Composites: Polystyrene-Eucalyptus globulus Labill
- Biomineralization of engineered spider silk protein-based composite materials for bone tissue engineering
- Cellulose nanofibril hydrogel tubes as sacrificial templates for freestanding tubular cell constructs
- Cellulose nanofibril-and chitin nanofibril-based materials: fibers, scaffolds and tubes
- Bioactive gyroid scaffolds formed by sacrificial templating of nanocellulose and nanochitin hydrogels as instructive platforms for biomimetic tissue engineering
- Print your membrane: Rapid prototyping of complex 3D-PDMS membranes via a sacrificial resist
- Aligned bioinspired cellulose nanocrystal-based nanocomposites with synergetic mechanical properties and improved hygromechanical performance