We will move to Aalto in spring 2025. We have now two doctoral researcher positions on electrochemical modelling and in high-throughput electrochemistry ( and a post-doc position on hydrocarbon electrolysis (, DL to apply 30.11.

Preprint on Azoniafluorenones: A New Family of Two-electron Storage Electrolytes for Sustainable Near-Neutral pH Aqueous Organic Flow Battery with @PetriPihko is available in ChemRxiv -

"A modern black glass house with warm lighting, nestled among tall trees beside a tranquil river in a misty forest.". Create images and videos in seconds with Grok Imagine.

Our collaborative work on Exploration of Vitamin B6‐Based Redox‐Active Pyridinium Salts for Flow Batteries is out in Chem. Eur. J. @Compbat1 @PetriPihko @RCNSTheoChem

Reminder that tomorrow is the last day to apply.

A reminder that the DL for registration and abstract submission for the flow battery winter school in Turku, Finland, is today.

The UTU-GreDiT call for applications for 25 fully-funded doctoral researcher positions is now open! . One of them in our group for flexible hydrogen generation. Instructions, projects, research groups descriptions, and links are here:

Hear us discussing our @Compbat1 project about discovering novel materials for flow batteries in CORDIScovery podcast. @CORDIS_EU.

It was a pleasure to talk about batteries and our work within @Compbat1 project in this podcast.

RT @CORDIS_EU: 🔋 Power up your knowledge! In this episode of #CORDIScovery, we bring you a battery-powered adventure! . 💡 Discover how thre….

We a looking for 1-2 post-docs to join our group, focusing on development of flow battery chemistries and technologies:.

We are hosting a winter school on flow batteries in Turku, Finland, 13.-15.12. For more information see

We gratefully acknowledge the financial support from Technology Industries of Finland Centennial Foundation and Jane and Aatos Erkko Foundation through the Future Makers program for the project Digipower, @SuomenAkatemia and @ERC_Research.

We show that all the studied bipyridine complexes are not stable enough for flow battery applications, as they undergo dimerization reactions upon oxidation to Fe(III). We demonstrate that cyclic voltammetry can be useful for evaluating the stability of the Fe(III) species.

Our work on voltammetry for evaluation of the stability of various iron bipyridine complexes is out in Journal of Electroanalytical Chemistry: ..Synthesis was done by group of @PetriPihko.

Our @Compbat1 project ended last spring. Read a short summary prepared in @CORDIS_EU

Our @Compbat1 project ended last spring. Here is a short summary of the results:

It was a pleasure to visit Munich!.

Our collaborative work with Prof. Elzbieta Frackowiak @PUT_Poznan on Molten salt carbon felt oxidation for VRFB electrode performance improvement is out in Carbon: . Our part was to develop the measurement system to evaluate overpotetials during operation.

Lue lisää.@BatteryUtu.tutkimusprojektista jossa mukana myös.@PetriPihko.@uniofjyvaskyla.sekä Kari Laasonen.@AaltoUniversity.

Our collaborative work within @Compbat1 with Prof. Kari Laasonen @AaltoUniversity and Michael Busch @uni_ulm on prediction of proton coupled electron transfer and scheme of squares for quinone-type molecules for flow batteries is out @digital_rsc