Con esta herramienta te facilitamos un acceso a todas las ofertas y demandas de tecnología europeas y a búsquedas de socios para participar en propuestas europeas de I+D publicadas en la red Enterprise Europe Network, pudiendo filtrar los resultados para facilitar las búsquedas más acordes con tus necesidades.

¿Quieres recibir estos listados de oportunidades de colaboración en tu correo de forma periódica y personalizada? Date de alta en nuestro Boletín

Los términos de búsqueda han de ser en inglés.

Zeolita decorada con nanopartículas de óxido de cobre y su proceso de producción

Resumen

Tipo:
Oferta Tecnológica
Referencia:
TOTR20161031002
Publicado:
11/11/2016
Caducidad:
11/11/2017
Resumen:
Un investigador turco ha desarrollado un sistema híbrido que captura CO2 en cantidades considerablemente mayores que utilizando solo zeolita. La zeolita es un material perfecto para procesos de separación y purificación de gas debido a sus propiedades de intercambio iónico, capacidad de absorción, selectividad y estructura porosa. Este sistema ha sido desarrollado combinando zeolitas y CO2. La capacidad de absorción de CO2 ha sido mejorada sintetizando nanopartículas de CuO en la superficie de zeolita. Además almacena el CO2 capturado mediante fisisorción y quimisorción y libera el gas con un tratamiento térmico sencillo para su uso posterior. El investigador busca fabricantes de sistemas de aire acondicionado con el fin de establecer acuerdos de licencia.


Details

Tittle:
Copper oxide nanoparticles decorated zeolite and their production
Summary:
A Turkish researcher has developed an invention through which the developed hybrid system captures CO2 in significantly higher amount than the just zeolite. The system also stores the CO2 with physical and chemical bonds until its further use. The inventor is looking for license agreements in which factories or air conditioning manufacturers are supposed to be potential licensees.
Description:
Zeolite serves as a perfect material for gas separation and purification processes due to the ion exchange properties, adsorbing capacity, selectivity, and porous structure. Zeolites in molecular sieve form are often used in industry to capture various gases such as CO2. Alternatively, metal oxides in nanoscale with their high surface/volume ratios are also very promising materials on adsorbing and storing gases like CO2. In this invention, new CO2 adsorbing system has been developed by combining zeolites and CO2. The CO2 adsorbing capability has been significantly increased by synthesizing CuO nanoparticles on zeolite surface. Morevover, this system allows storage of the captured CO2 gas by physisorption and chemisorption as well as the release of the gas by simple heat treatment for its further use. System can be produced with an economical method which can be applied in industrial scale.
License agreements is the top commercialization alternative that the inventor is seeking for.
Advantages and Innovations:
The invention provides low cost solutions which is a top priority of major industries.
It provides high CO2 capture and storage capacity. Besides that, the release of stored CO2 by simple heat treatment for the future use of the gas is possible which makes factories more interested in using the technology.

Stage of Development:
Under development/lab tested
IPs:
Patent(s) applied for but not yet granted
CommeR Statunts Regarding IPR Status:
National patent is pending. It is planned to continue with an international application. Final decision will be made within 8 monthsç

Partner sought

Type and Role of Partner Sought:
The technology will be interesting mainly for textile factories and air conditioning manufacturers. The inventor is interested in licensing it.
Scale up will be required and it is hoped to do do it with the potential licensee.

Client

Type and Size of Client:
University
Already Engaged in Trans-National Cooperation:
No
Languages Spoken:
English

Keywords

Technology Keywords:
04002012 Otra maquinaria
02002002 Recubrimientos
02002003 Secado
03005009 Tejidos técnicos para aplicaciones industriales
03005007 Textile fibres