Contact

By phone:
Call us at +34 961 820 000.
Fax: +34 961 820 001.

By email:
Fill out the form below and send us your query.

Address:
Parque Tecnológico
C/ Albert Einstein, 1
46980 Paterna · Valencia

How to arrive
Name*
Surname*
Email*
Telephone*
Subject*
Message*
<span>Espa&#241;ol</span><span>English</span><span>Valenci&#224;</span><span>中文</span>
CONTACT

Open dissemination projects

Scope
Source of funds
Line
Increasing the quality and rate of MultilayER packaging recycLINg waste

MERLIN

The main objective of the MERLIN project, coordinated by ITENE and supported by the Horizon 2020 programme, is the development of new sorting, delamination and recycling processes for multilayer post-consumer packaging, both flexible and rigid, in order to produce new packaging solutions for food packaging with a circular economy model.
Increasing the quality and rate of MultilayER packaging recycLINg waste

MERLIN

The main objective of the MERLIN project, coordinated by ITENE and supported by the Horizon 2020 programme, is the development of new sorting, delamination and recycling processes for multilayer post-consumer packaging, both flexible and rigid, in order to produce new packaging solutions for food packaging with a circular economy model.
Computing infrastructure for the definition, performance testing and implementation of safe-by-design approaches in nanotechnology supply chains

SBD4NANO

The SBD4NANO project, funded by the Horizon 2020 programme of the European Union, aims to develop mathematical models integrated within an "e-infrastructure" software platform for the identification, design and implementation of strategies for the design of safe-by-design nanomaterials, nanoproducts and processes (Safe-by-Design).
Open innovation test bed for developing safe nano-enabled bio-based materials and polymer bionanocomposites for multifunctional and new advanced applications.

BIONANOPOLYS

The main objective of the BioNanoPolys project is to create a network of pilot plants and complementary services to accelerate the market introduction of bio-based materials with nanoparticles through a single point of entry.
For a sustainable and European value chain of PHA-based materials for high-volume consumer products

NENU2PHAR

The NENU2PHAR project, funded by Bio-Based Industries Joint Undertaking (BBI-JU) and the EU Horizon 2020 programme, will develop an innovative route to produce polyhydroxyalkanoates (PHAs) from sustainable and renewable resources, such as micro-algae biomass and selected bacteria strains. PHAs are a family of polyester-type biopolymers, which are characterised by being bio-based, biodegradable and compostable and provide variability of properties depending on the type selected. So much so that they are currently presented as one of the sustainable alternatives with the greatest potential to replace conventional plastics derived from fossil fuels.
High performance sustainable bio-based packaging with tailored end of life and upcycled secondary use.

PRESERVE

The main objective of the PRESERVE project is to replace fossil fuel-based plastic materials used in food packaging with bio-based solutions with enhanced properties.
Showing from 1 to 6 of 87  
OTRI