RESEARCH FIELD
Chemistry: Supramolecular Chemistry, Materials Science.
RESEARCHER PROFILE
Doctoral Candidate (DC) to be enrolled in a PhD programme
JOB STATUS
Full-time
HOURS PER WEEK
37,5
OFFER DESCRIPTION
RESEARCH FIELD
Chemistry: Supramolecular Chemistry, Materials Science.
RESEARCHER PROFILE
Doctoral Candidate (DC) to be enrolled in a PhD programme
OFFER DESCRIPTION
Where: Department of Chemical Engineering and Institute of Advanced Materials, Universitat Jaume I, Spain.
Duration: up to 3 years
Funding: Generalitat Valenciana NextGenerationEU founds programme for Materials with Advanced Functionalities for the New Technological Transformation (SintBat).
Starting: 01/02/2023 aprox.
Requirement: University degrees in Chemistry, Physics or Chemical Engineering and Master's in Materials Sciences or in the field of engineering or equivalent.
Background: Inorganic chemistry and synthesis, electrochemistry, battery testing.
A postdoctoral position is offered at the Institute for Advanced Materials (INAM; www.inam.uji.es) of the Universitat Jaume I in the framework of the European project OHPERA of the European Innovation Council, under the direction of Professors Iván Mora Seró and Sixto Giménez Juliá.
A postdoctoral position is offered at the Institute for Advanced Materials (INAM; www.inam.uji.es) of the Universitat Jaume I in the framework of the European project OHPERA of the European Innovation Council, under the direction of Professors Iván Mora Seró and Sixto Giménez Juliá.
Where: Institute of Advanced Materials, Universitat Jaume I, Spain.
Duration: 3+1 years
Funding: Fully funded by CIDEGENT programme for PRONESS- Programmable Non-Equilibrium Self-assembling Systems.
Starting: As soon as possible in 2023 (01/01/2023).
Project title
Decarbonizing fuel and chemical synthesis through sustainable and scalable carbon dioxide hydrogenation to C1 chemicals
The Project
Research Group Energy and Advanced Materials
Hybrid Perovskites are a fascinating family of materials initially developed for photovoltaic applications. From the first report in 2009 a set of unique physical and chemical properties have been revealed such as the mixed electronic/ionic conductivity. This property makes them ideal candidates for memory applications that mimic the working mechanism of the human brain. The project aims at fabrication of single pixel devices, cross-bar and neuromorphic devices and their implementation into advanced functionalities.
