sustainable nanostructures for energy production and storage

Abstract

Low-cost, Earth abundant and efficient materials are needed for energy transition. The synthesis of nanostructured and promising materials needs to be developed for energy production and storage application, as green hydrogen production via water (photo electrolysis), supercapacitor, hydrogen storage. Transition metal oxide produced by chemical bath deposition, hydrothermal, laser ablation or irradiation give enormous advantages for these application, still microscopic phenomenda occurring at the solid/liquid interface at the nanoscale requires detailed investigation and modeling. 

Keywords
Energy
Green Transition
nanomaterials
sustainability
ERC sector(s)
PE Physical Sciences and Engineering
Fields of study
Name supervisor
Salvo Mirabella
E-mail
salvo.mirabella@dfa.unict.it
Name of Department/Faculty/School
Physics and Astronomy
Name of the host University
University of Catania (UNICT)
EUNICE partner e-mail of destination Research
leonardo.mirabella@studium.unict.it
Country
Italy
Thesis level
PhD
Minimal language knowledge requisite
English B2
Thesis mode
On-site
Call deadline
Length of the research internship
6 months
Financial support available (other than E+)
Maybe