UniPI PhD student visiting Aarhus University
Among the CompBat project legacies, there is the UniPI PhD Student Diana Cremoncini’s visit to Prof. Anders Bentien...
UniPI PhD student visiting Aarhus University
Among the CompBat project legacies, there is the UniPI PhD Student Diana Cremoncini’s visit to Prof. Anders Bentien at the Department of Biological and Chemical Engineering in Aarhus University (Denmark). Diana is currently investigating the feasibility of renewable...
The infographic column: Uppsala
The objective of UU research team is the construction of a finite element model to estimate the cell performance both, for conventional redox-flow battery models and the implementation of solid boosted flow batteries.The cell model is developed using the software...
The infographic column: Turku
Evaluation of the prospective new molecules for flow battery applications starts by measurements of electrochemical properties such as the redox potentials, reaction kinetics and reversibility in different pH. These measurements allow initial evaluation of the...
Steering Board Meeting
Recently our periodic Steering Board Meeting took place. During the meeting, as in the previous one, each partner shared the progress made and discussed future steps. The six-monthly meeting has offered an overview of the first results after 18 months of project,...
The infographic column: Jyväskylä
The JYU research team is involved in chemical synthesis of selected bioinspired molecules for redox flow batteries. The molecules have been identified in Steps 1 and 2 by TTK and Aalto. The most important property that guides the selection of molecules to be...
The infographic column: AALTO
We will perform quantum mechanics based molecular dynamics simulations (AIMD) for studying the electron transfer from electrode to molecules that can be used in the redox flow battery (RFB). To be able to model the charge transfer we use the Constrained Density...
The infographic column: TTK
The TTK research team is involved in developing high-throughput screening (HTS) methods that enables the identification of promising candidates of water-soluble redox-active compounds for experimental synthesis and electrochemical characterization. The focus is on...