D. Cazorla-Amorós is a Full Professor in Inorganic Chemistry at the University of Alicante (Department of Inorganic Chemistry and Materials Institute). He developed his research in the following areas: (1) preparation and characterization of carbon materials (activated carbons, carbon fibers, nanostructured carbons, etc.), zeolites, and composites; (2) heterogeneous catalysis; (3) pollutant removal; (4) materials characterization using synchrotron-radiation-based techniques (SAXS, XAFS, SANS, and LAD); (5) fundamentals of gas adsorption at low and high pressures; (6) gas storage (methane and hydrogen); (7) electrical energy storage (supercapacitors). WIth this research, he has published more than 330 papers according to Scopus (H index = 69), and he is co-author of 16 patents. In the last five years, he has been co-author of more than 60 publications. He has also contributed to more than 400 communications to congresses and meetings.
Research Keywords & Expertise
Batteries
Biomass Conversion
Electrocatalysis
Energy Storage
Heterogeneous Catalysi...
Hydrogen Production
Hydrogen Storage
Photocatalysis
Porous Materials
Surface Chemistry
Zeolites
carbon materials
metal nanoparticles
Electrochemical Capaci...
pollutant removal
High pressure adsorpti...
Fuel cells electrodes
Fingerprints
carbon materials
Zeolites
Surface Chemistry
Hydrogen Storage
Porous Materials
Batteries
Energy Storage
metal nanoparticles
Electrochemical Capacitors
Hydrogen Production
Biomass Conversion
Heterogeneous Catalysis
Photocatalysis
pollutant removal
High pressure adsorption
Short Biography
D. Cazorla-Amorós is a Full Professor in Inorganic Chemistry at the University of Alicante (Department of Inorganic Chemistry and Materials Institute). He developed his research in the following areas: (1) preparation and characterization of carbon materials (activated carbons, carbon fibers, nanostructured carbons, etc.), zeolites, and composites; (2) heterogeneous catalysis; (3) pollutant removal; (4) materials characterization using synchrotron-radiation-based techniques (SAXS, XAFS, SANS, and LAD); (5) fundamentals of gas adsorption at low and high pressures; (6) gas storage (methane and hydrogen); (7) electrical energy storage (supercapacitors). WIth this research, he has published more than 330 papers according to Scopus (H index = 69), and he is co-author of 16 patents. In the last five years, he has been co-author of more than 60 publications. He has also contributed to more than 400 communications to congresses and meetings.
