01-07-2019

TEESMAT is a platform (or OITB) dedicated to material characterisation for Li-ion batteries, Na-ion batteries, Li all-solid batteries, Printed Zn/Li batteries, Lead-acid batteries, Metal-air batteries, redox flow batteries, supercapacitors and any kind of other electrochemical energy storage device.


teesmat projectProject overview

Despite more than 200 years of development of batteries, the physical limits of battery performance are far from being reached. The complexity of physico-chemical processes inside batteries makes any development strongly dependent on a proper description and monitoring of the inherent evolution and interaction of all materials involved in the functioning of an electrochemical cell. The mean figures of merit (specific energy per mass, volume or cost unit, cyclability) can all theoretically be substantially improved, under the condition of a proper understanding of where and how their limits are reached in today's industrialized systems. This underlines how much this important branch of our technological future depends on novel and accessible characterization techniques. Given this grand challenge, access to advanced characterisation solutions for the EU industry will be key to accelerate innovation and reduce the large cost share of materials. However, several bottlenecks are preventing access by companies to novel techniques, to which TEESMAT - by launching an Open lnnovation Test Bed (OITB) - brings a comprehensive response by leveraging European strengths from 11 Countries and facilitating access to physical facilities, capabilities and services implementing novel characterisation solutions with outstanding capability and performance.

Objectives:

The overall aim of TEESMAT is to lower the barriers of access to industrially relevant, novel problem­ solving techniques and services, including characterisation and data analytics for large and small companies. This aim will be pursued by setting up & implementing a financially sustainable Open lnnovation Test Bed (OITB) whose techniques and services address such diverse problems faced in the development of clean, safe, high-performance battery solutions. The three core objectives of TEESMAT are:

  1. Set-up an OITB to provide effective, centrally managed access to advanced materials' characterisation, modelling and data informatics;
  2. Demonstrate the OITB's added value by solving persistent, high-impact industrial problems;
  3. Ensure the OITB's growth, longevity, financial sustainability and stakeholder support.

Consortium

The TEESMAT consortium gathers 9 Service Providers (SEMILAB, INCORE, CERTH, CEA, ZSW, EnergyVille/VITO, ESRF, TECNALIA, SERMA) developing services with the active contribution of 10 Services Users (ZINERGY, LITHOPS, VUNASKO, GENES'INK, SUNLIGHT, NORTHVOLT, ARKEMA, UMICORE, CEGASA and CRF-FIAT) sharing materials characterisation experience in the frame of 24 User Access Cases.

TEESMAT is coordinated by CEA. A total of 14 small and large enterprises from 10 Countries contribute on both sides of the service (offer and demand) along the full value chain. The consortium is offering a complete set of interdisciplinary skills extremely interconnected and transverse for the project.

During the project lifetime, the consortium aims at attracting additional EU Services Users and Providers in order to widen the OITB experience and prepare its continuity beyond TEESMAT.

EnergyVille/VITO role and expectations

EnergyVille/VITO participates to TEESMAT as a service provider by offering its competences in several techniques such as acoustic measurement to estimate the cell SOC and SOH, or accelerated ageing tests to evaluate the cell/battery lifetime. EnergyVille/VITO is also involved by offering modelling activities like thermal modelling to estimate cell/battery heat generation under severe use conditions.  

The project started January 1st 2019 and will run for 44 months.

For more details please visit the project website https://www.teesmat.eu/

Khiem Trad

Contact

Khiem Trad

Researcher Battery and Energy Storage at EnergyVille/VITO