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  • SOLARCOMBI+
    line of project SOLARCOMBI Share Participants IK4 IKERLAN AEE INTEC TECSOL FRAUNHOFER CRES EURAC 5 participantes industriales Università di Bergamo Duration 2007 2010 N Exp EIE 07 158 SI2 466793 PROGRAMME European programmes Intelligent Energy Europe El objetivo de este proyecto es considerar las enfriadoras de adsorción absorción de pequeña escala comercialmente disponibles e identificar y promover sistemas Solar Combi estandarizados para pequeñas aplicaciones por ejemplo sistemas combinados de agua

    Original URL path: http://www.ikerlan.es/en/what-we-research/projects/solarcombi (2016-02-15)
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  • OPTOBIOSENS
    project OPTOBIOSENS Share Circuitos fluídicos integrados con dispositivos nanobiosensores Participants IK4 IKERLAN Instituto de Microelectrónica de Madrid del Centro Nacional de Microelectrónica del CSIC Duration 2006 2009 MEC N Exp TEC2006 13604 C03 02 PROGRAMME State administration Non targeted basic research projects Desarrollar un microsistema integrado que se pueda emplear como sistema portátil para el diagnóstico clínico de analitos de gran relevancia El microsistema incluirá micro nanodispositivos biosensores integrados monolíticamente

    Original URL path: http://www.ikerlan.es/en/what-we-research/projects/circuitos-fluidicos-integrados-con-dispositivos-nanobiosensores (2016-02-15)
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  • SelfPOCNAD
    and power electronics systems Structural reliability and mechatronics Microsystems for industrial environments Intelligent maintenance systems Electrical storage and thermal management Embedded systems Electrical and power electronics systems Structural reliability and mechatronics Microsystems for industrial environments Intelligent maintenance systems Electrical storage and thermal management Other projects ANGELAB CELLMICROCART LABONFOIL More of this line of project SelfPOCNAD Share Participants Norchip AS Coordinator Nortek AS University College of Vestfold Microliquid IK4 IKERLAN European Cervical Cancer Association Innlab BV Delta AS Duration 2010 2012 Contract number FP7 SME 262243 PROGRAMME European programmes FP7 SME El objetivo del proyecto SelfPOCNAD es desarrollar un prototipo industrial para monitorización rápida de Cáncer Cervical utilizando muestras recogidas por el propio paciente La introducción de esta plataforma en las consultas médicas pretende mejorar la adhesión de las pacientes a los programas de detección precoz de Cáncer Cervical existentes y reducir su incidencia particularmente entre aquellas pacientes que por cuestiones culturales o religiosas rechazan ser exploradas por facultativos IK4 Ikerlan Organisation and team Results Infrastructures and equipment Professional development IK4 Research Alliance Mondragon Corporation R D for companies Product and service development Energy efficiency and energy storage Operational efficiency and advanced manufacturing IK4 IKERLAN Inspires Our research areas Embedded systems

    Original URL path: http://www.ikerlan.es/en/what-we-research/projects/selfpocnad (2016-02-15)
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  • CANDO
    2013 2017 Contract number FP7 ICT 610472 PROGRAMME European programmes FP7 ICT Detecting the cells that unleash tumour metastasis known as circulating tumour cells or CTCs currently requires a long costly and complex process The European authorities believe that this process can be improved by using currently existing microfluidic technologies and the CANDO project has been set up for this purpose It aims to develop a lab on a chip type device that allows the CTCs emitted by cancer of the pancreas towards other parts of the body to be identified and measured automatically It is seeking to develop a device capable of detecting the metastasis caused by this type of tumour more quickly more cost effectively and in a more straightforward way compared with conventional methods This system will be used to provide a prognosis as well as classify and monitor the state of the pancreatic cancer within approximately 5 hours Our contribution At IK4 IKERLAN we will be developing the platform on which the blood sample will be processed and analysed The platform currently in its design phase will carry out the functions of purifying the tumour cells so that they can be analysed by means of RAMAN

    Original URL path: http://www.ikerlan.es/en/what-we-research/projects/cando (2016-02-15)
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  • BIOLOC
    IKERLAN Fundación Prodintec Duration 2014 2017 MINECO N Exp RTC 2014 1746 1 PROGRAMME State administration Retos Colaboración 2014 El objetivo general es el desarrollo y optimización del proceso productivo de una plataforma compacta portátil y de bajo coste basada en tecnologías Lab on a Chip con un sistema de transducción electroquímico que pueda ser empleada en el desarrollo de aplicaciones biomédicas tales como la determinación de biomarcadores creatina creatinina y ácido úrico en enfermedades renales Se trata por un parte de desarrollar una verdadera plataforma Lab on a Chip que integre la microfluídica necesaria para llevar a cabo de forma sencilla las principales etapas del proceso de análisis de una muestra clínica pretratamiento reacciones derivatizaciones separaciones etc También se integrará el sistema de detección basado en principios electroquímicos así como la electrónica necesaria para el correcto funcionamiento y automatización de toda la plataforma todo ello con el fin poner en el mercado una plataforma que saque el máximo partido a todas las prestaciones que ofrecen las Tecnologías Lab on a Chip Por otra parte junto al diseño y desarrollo del sistema de transducción electroquímico el proyecto también tratará de optimizar la fase sensora del sistema de modo que permita reconocer de forma selectiva cada uno de los biomarcadores inicialmente planteados Esta fase sensora además de identificar el analito de interés puede ser usada para mejorar la sensibilidad de gran importancia en el sector clínico del sistema de transducción electroquímico mediante la incorporación de nanomateriales tales como nanopartículas metálicas o poliméricas nanotubos de carbono etc facilitando y mejorando tanto la transducción de la señal como el reconocimiento molecular de analitos En este punto uno de los mayores retos será la obtención de una fase sensora reproducible y estable que pueda ser incorporada a la producción en masa de los dispositivos

    Original URL path: http://www.ikerlan.es/en/what-we-research/projects/bioloc (2016-02-15)
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  • MICROCHEAP
    management Other projects MicroSCALE ANGELAB CELLMICROCART More of this line of project MICROCHEAP Share Microtechnologies for industrial competitiveness and the knowledge economy Participants CIC Microgune Coordinator IK4 IKERLAN CEIT IK4 IK4 TEKNIKER Mondragon Unibertsitatea Duration 2014 2015 File number IE14 391 PROGRAMME Basque Government ETORTEK The microCHEAP project represents progress in the development of new generations of scalable and low cost MEMS Microelectromechanical Systems with high added value allowing a faster transfer to industry which in turn will help Basque companies make a qualitative leap in their competitiveness MicroCHEAP wishes to decisively promote the development of new generations of MEMS and establish Euskadi as an important player in the development of products with high technological content This progress will help Basque companies to compete globally Our contribution Our role is related to the development of autonomous microsystems for industrial environments especially with regard to two of the most relevant areas energy and communications For the former case we will develop management devices for micro energy collectors allowing for their integration into intelligent systems For the latter case we will develop printed communication systems which will allow us to progress in the generation of sensor systems based on these production techniques

    Original URL path: http://www.ikerlan.es/en/what-we-research/projects/microcheap (2016-02-15)
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  • MIRIDU-Microsystems for monitoring hostile industrial environments
    and mechatronics Microsystems for industrial environments Intelligent maintenance systems Electrical storage and thermal management Other projects ANGELAB CELLMICROCART LABONFOIL More of this line of project MIRIDU Microsystems for monitoring hostile industrial environments Share Sensorisation and monitoring of components Participants IK4 IKERLAN Duration 2013 2015 File number 36 14 PROGRAMME Gipuzkoa Regional Government Gipuzkoa science technology and innovation network This project pursues the research and development of micro and nanotechnologies applied to miniaturised integrated and autonomous devices for the sensorisation and monitoring of components in hostile industrial environments such as areas with high temperatures and vibrations for example The identified technological challenges are microproduction processes extraction of energy from the environment wireless communication assembly and protection in hostile environments These challenges allow the incorporation of microsensors onto the same parts or products which are to be monitored which offers great potential for resolving common problems in the industry Our contribution At IK4 IKERLAN we have focused our contributions on the transport and mobility energy and ageing sectors where the related industry has a strong presence which increases the possibilities of the project to being able to contribute to the competitiveness of our area IK4 Ikerlan Organisation and team Results Infrastructures and

    Original URL path: http://www.ikerlan.es/en/what-we-research/projects/miridumicrosystems-for-monitoring-hostile-industrial-environments (2016-02-15)
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  • Génesis Red
    and power electronics systems Structural reliability and mechatronics Microsystems for industrial environments Intelligent maintenance systems Electrical storage and thermal management Other projects ANGELAB CELLMICROCART LABONFOIL More of this line of project Génesis Red Share PT Española sobre Nanoelectrónica e Integración de Sistemas Inteligentes Participants GAIA CIdetek IK4 CNM CSIC La Red IBERNAM IK4 IKERLAN Duration MINECO N Exp RET 420000 2010 2 PROGRAMME State administration Programa Redes Tecnológicas IK4 IKERLAN apoya la Plataforma Tecnológica Española Génesis Red que funciona como espejo Mirror Platform para las plataformas europeas ENIAC dedicada a la nanoelectrónica y EPoSS dedicada a la integración de sistemas inteligentes SSI Uno de los objetivos principales de la plataforma es promover la creación de consorcios potentes entre miembros provenientes de GÉNESIS con el objetivo de presentar proyectos exitosos ante el VIIPM y en las convocatorias de la JTI ENIAC Junto con la Asociación GAIA Cidetec IK4 CNM CSIC y la Red IBERNAM llevamos la secretaría de esta plataforma Para eso recibimos una ayuda del MICINN a través del proyecto GÉNESIS CONSOLIDACIÓN Plataforma Española sobre Nanoelectrónica e Integración de Sistemas Inteligentes IK4 Ikerlan Organisation and team Results Infrastructures and equipment Professional development IK4 Research Alliance Mondragon Corporation R D for

    Original URL path: http://www.ikerlan.es/en/what-we-research/projects/genesis-red (2016-02-15)
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