Duration: 01.03.2010 – 29.02.2020

Project management: Dr. Harald Kren

Funding: NMP-03-2015 Manufacturing and control of nanoporous materials (Project number: 686163)

Partner: ACONDICIONAMIENTO TARRASENSE ASSOCIACION (ESP), JOHNSON MATTHEY PLC. (GBR), CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE –CNRS (FRA), UNIVERSITY OF YORK (GBR), META Group S.R.L (ITA), EIDGENOESSISCHE MATERIALPRUEFUNGS- UND FORSCHUNGSANSTALT (CH), FUNDACIO PRIVADA INSTITUT CATALA D’INVESTIGACIO QUIMICA (ESP), BIORENEWABLES DEVELOPMENT CENTRE (GBR), BLUEPRIME BV (NL), SOLUCIONES CATALITICAS IBERCAT SL (ESP)

Homepage: www.porous4app.eu

The main idea of POROUS4APP project is based on the fabrication of functional nanoporous carbonaceous materials at pilot plant scale from natural resources (polysaccharide). The process for nanoporous carbon fabrication is already well known as one of the POROUS4APP partner has developed the STARBON® technology at TRL5 which consist of swelling, drying and pyrolysis of natural resources and in this case Starch. What POROUS4APP project will bring to the European community is the development of new metal/metal-oxide doped-nanoporous carbonaceous materials based on a known technology. This technology needs to be upscaled and modified to enable a full flexibility of the material characteristics to be applied to various industrial applications.
The use of abundant renewable resources like starch has been proven to be a low cost and reliable raw material source for industrial production of carbonaceous materials having porosity in the nanometer range. In POROUS4APP it will be intended to produce not only carbonaceous nanoporous materials but carbonaceous material with enhanced functionality by using impregnation and sol/gel strategy. This will allow POROUS4APP materials to reach the challenging requirements of state of the art high added value materials at lower cost for applications in energy storage such as lithium-ion battery and also in chemical catalysis process. These applications need materials with well defined porosity to reach high efficiency level of their functional systems.