CO2EXIDE – Related research
Related expired, submitted and ongoing projects of CO2EXIDE partners
![celbicon](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/03/celbicon_200x55px.png)
CELBICON – Cost-effective CO2 conversion into chemicals via combination of Capture, ELectrochemical and BIochemical CONversion technologies (2016–2020)
(H2020-ISIB-2015-2)
Tobias Gärtner (Fraunhofer, partner)
![center_for_energy_storage_200x200px_opt45 center_for_energy_storage](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/center_for_energy_storage_200x200px_opt45.jpg)
Center for Energy Storage, Combination of chemical, biotechnological and electrochemical processes
(national German funding, 2012–2017)
Volker Sieber (Fraunhofer, coordinator)
![rechargeable-battery_200x200px_opt45 rechargeable-battery](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/rechargeable-battery_200x200px_opt45.jpg)
Preparation and characterisation of a rechargeable battery based on a conductive polymer and aluminum in an ionic liquid electrolyte.
(SOTON internal funding)
Carlos Ponce de Leon, (SOTON, principal investigator)
![necobaut](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/necobaut_200x200px_opt45_korr-150x150.jpg)
NECOBAUT – Innovative automotive electrochemical storage applications based on nanotechnology (NECOBAUT): iron-air redox flow battery.
(FP7.ENERGY.2012.10.2.1: Future Emerging Technologies)
Carlos Ponce de Leon, (SOTON, partner)
![Aluminium-air-battery_200x200px_opt45 Aluminium-air-battery](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/Aluminium-air-battery_200x200px_opt45.jpg)
Aluminium-air battery: study of three-dimensional aluminium anode and air cathode for the development of high energy density battery for micro-UAVs.
Sponsored by DSTL, UK.
Carlos Ponce de Leon, (SOTON, principal investigator)
![Redox-flow-batteries_2_200x200px_opt45 Redox-flow-batteries](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/Redox-flow-batteries_2_200x200px_opt45.jpg)
Redox flow cells batteries: zinc – cerium. Internal project
Carlos Ponce de Leon (SOTON, principal investigator)
![AGH AGH](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/AGH_Organic-inorganic_200x200px_opt45.jpg)
Organic-inorganic nanostructural hybrid materials for thermoelectric application
project ID: IP3/2015/73
Source of funding: Ministry of Science and Higher Education, Poland
Katarzyna Hnida (AGH, coordinator)
![Nanostructured-functional-materials_200x200px_opt45 Nanostructured-functional-materials](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/Nanostructured-functional-materials_200x200px_opt45.jpg)
Nanostructured functional materials – synthesis, properties, applications
Project ID: 2015/17/D/ST5/01332
Source of funding: National Science Center, Poland
Katarzyna Hnida (AGH, coordinator)
![AGH AGH](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/AGH_Organic-inorganic_200x200px_opt45.jpg)
Magnetoelectrochemical synthesis of the Ni-TiO2 composite
Source of funding: Polish Ministry of Science and Higher Education
Krzysztof Mech (AGH, coordinator)
![Wind2Hydrogen Wind2Hydrogen](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/4er_Wind2Hydrogen_u_a_200x400px_opt45.jpg)
The EI-JKU participates in four connected projects for developing an entire Power to Gas system in Austria.
- Wind2Hydrogen (2014– 2016) built a 100 kW pilot plant with 12 PEM electrolysers,
READ MORE - EE-Methan aus CO2 (2013–2016) develops catalytic methanation based on a ceramic honeycomb catalyst adapted to industrial CO2 sources for increasing lifetime a 10% with respect to commercial catalysts,
READ MORE - OptFuel (2013–2016) focuses on hydrogen production through fermentation and on the purification requirements for its later conversion into methane. Minor goals as cost assessment and life-cycle analysis are also included.
READ MORE - Underground Sun Storage (2013–2016) studies the storage of the generated gas.
READ MORE
Horst Steinmüller, Robert Tichler, Johannes Lindorfer
(EI-JKU, coordinator and project partner)
![kopernikus_200x200px_opt45 kopernikus](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/kopernikus_200x200px_opt45.jpg)
Kopernikus-Projekt „Power to X“
(national funding; 2016 – est. 2024)
Siemens leading research cluster : CO2 to CO electrolysis and subsequent biochemical conversion to valuable Chemicals
Günter Schmid (Siemens, partner)
![eEthylen_200x200px_opt45 eEthylen](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/eEthylen_200x200px_opt45.jpg)
Nutzung elektrischer Energie aus erneuerbaren Quellen zur elektrochemischen Herstellung von Ethylen aus CO2 – eEthylen
German national funding (BMBF)
Dan Taroata (Siemens, partner)
![CO2toValue_200x200px_opt45 CO2toValue](https://co2exide-eu.e-p-c.de/wp-content/uploads/2018/04/CO2toValue_200x200px_opt45.jpg)
CO2ToValue (direct electrocatalytical CO2 reduction in one step) (2012 – ongoing)
Siemens internal funding with two research groups being active in Munich and in Erlangen
Maximilian Fleischer (Siemens, coordinator)