Electrical storage has a key role to play in the energy transition. Not only to bridge the mismatch between power generation and power consumption of renewable energy, but also to improve electricity transmission. Extensive research is being carried out for better, safer and more efficient battery t Contact online >>
Electrical storage has a key role to play in the energy transition. Not only to bridge the mismatch between power generation and power consumption of renewable energy, but also to improve electricity transmission. Extensive research is being carried out for better, safer and more efficient battery technologies.
Electrical storage has a key role to play in the energy transition. Not only to bridge the mismatch between power generation and power consumption/use of renewable energy, but also to improve electricity transmission extensive research is being carried out for better, safer and more efficient battery technologies. In addition to new materials and technologies for batteries, EnergyVille is also looking for solutions to optimise existing battery technologies. The ultimate aim is to extend the battery range, lifetime and performance, and increase the charging rate without sacrificing safety.
Batteries used in stationary applications, but also those for mobile use (car, drone, boot, airplane, bike) display specific needs towards the materials development.
A consortium of nine partners is joining forces to boost the development of clean hydrogen innovation.
How can we meet a continuous growing energy demand and how to do so while reducing our environmental carbon footprint?
Nano-CCU aims to develop high-throughput electrolysers for CO2 capture and electrocatalytic conversion directly from gas or vapour at CO2 point sources.
SYN-CAT seeks to develop a combination technology on the basis of direct sunlight and renewable energy to selectively convert CO2 into methanol.
The key objective is to develop and validate a photonic device and chemical process concept for the sunlight-powered conversion of CO2 and green H2.
The SOLiDIFY project proposes a unique manufacturing process and solid-electrolyte material to fabricate Lithium-metal solid-state batteries.
The aim of the Lumen project is to show that hydrogen and CO2, in combination with sunlight, can be converted into synthetic gas in a commercially profitable way.
The EPOC project under the energy transition fund combines the expertise of 14 Belgian partners to improve the current state-of-the art energy models.
The BREGILAB project will investigate in detail how solar energy can be harvested with a minimal cost for grid expansion and batteries.
We aim to develop design rules for (catalytically activated) packing materials to enhance plasma-activated gas phase conversion reactions to basic chemicals.
Creating the next generation of high-performing, cost-effective and environmentally sustainable batteries for electromobility.
Current Direct addresses the challenges of waterborne transport by developing an innovative lithium-ion cell and swappable containerised energy storage system.
MESH-BAT targets the development of a high energy density, small area 2.5D Li-based solid-state battery for wearable and implantable devices.
FUGELS aims to accelerate the maturation and penetration of lithium-sulfur (LSB) batteries into the market.
Slurry & electrode processing:
Pouch and coin-cell assembly:
In-situ & ex-situ characterization of cell, electrode, and electrolyte:
A broad range of projects can be realized, from evaluation of new battery concepts to optimization of existing technologies.
Producers of battery components
Battery end-users (e.g. residential storage, electric vehicles)
The main equipment in the Battery Lab, together with their technical specifications are summarized below:
Our key competence relates to the synthesis and characterization of organic and hybrid organic-inorganic semiconducting materials and their integration in opto-electronic devices with focus on photovoltaic and healthcare applications, hereby pursuing rational structure-property relations. We conduct both fundamental and applied research and have a longstanding tradition in joint scientific R&D within European, national and regional projects, as well as servicing for industry and research centers. We can provide support in all steps from material development to advanced (structural and opto-electronic) material characterization, device analysis and prototype product manufacturing.
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