RENATECH network
Overview
Renatech is the French network of high-end facilities in the field of micro & nanotechnology coordinated by CNRS. Its objective is to allow the research and industry to benefit from competitive and world-class infrastructure for carrying out research and R&D projects. That requires top level equipment in micro and nanotechnologies.
Renatech is your partner for technological technological developments with its large technological facilities (7300m²) distributed over 5 sites in France and multiple experts.
With our network, you will get access to a profitable innovation ecosystem with global service and support for your developments.
5 sites in France:
C2N - Paris (Marcoussis/Orsay)
FEMTO-ST - Besançon
IEMN - Lille
LAAS - Toulouse
LTM - Grenoble
To meet the needs of the diverse nanoscale community, the multi-site Renatech network provides the necessary expertise and state-of-the art equipment for a broad spectrum of technologies from transversal up to very specific one.
. Technological service: OPEN-ACCESS fabrication service of micro and nanosystems for research and all industries.
R&D project collaboration with leading-edge tools and instrumentation
Client oriented advices: identification of the relevant technological solutions
On-site training capabilities: training the customers' staff for autonomous of high-end instruments
Services on demand:
Technological state of the art
Partnerships identification
Identification of funding opportunities
. Yes. service.
Sectors
Technology
Institut für Nanophotonik Göttingen e.V.
Overview
The Institute for Nanophotonics Göttingen acts in close cooperation with research institutions and industrial enterprises from all over the world in the area of application-orientated laser research, thus contributing as an intermediary between research and industry to the opening up of new and promising markets.
The institute currently has four scientific departments: Optical Nanoscopy, Short Pulses / Nanostructures, Optics / Short Wavelengths and Photonic Sensor Technologies. They have gained worldwide reputation for research and development in the fields of laser physics, laser measurement techniques and use of lasers. This reputation is reflected in a multitude of international cooperations and development orders. Synergies between the universities, the institutes of the Max Planck Society and the regional precision mechanics and optics industries have developed. The research activities range from the development of contact-free laser measurement techniques used for environment relevant areas to… The equipment comprises lasers and laser systems for various applications, analytical equipment for the characterization of materials, optics and surfaces, and various optical microscopy techniques.
Short pulse lasers and optical systems for nanostructure formation and micro-optical structures
Photonic sensor technologies (combustion diagnostics, bio- and environmental analytics, security- and process technology)
Optical microscopy and nanoscopy (STED microscopy, SMS microscopy)
Optics characterization, beam propagation, EUV radiation
. Services include feasibility studies, contract research, and prototype development in the fields of laser applications and optical technologies.
Absorption measurements
Beam profiler / caustic scan measurements
EUV-/XUV-Pinehole camera
Feasibility studies for surface nanostructuring
Hartmann-Shack wavefront sensor
Laboratory-scale plasma source
Phase masks and dielectric masks
Research and development services
Stretched flexible hollow fiber for pulse compression
Table-Top EUV Source&Schwarzschild Objective
UV femtosecond laser systems
Wavefront curvature sensor
. Yes. service.
Sectors
Technology
MCCI
Overview
MCCI, is an industry-led analogue-mixed-signal circuits research centre hosted at The Tyndall National Insitute in Cork, Ireland. Our mission is to increase jobs and exports in companies by increasing the relevance to industry of circuit research carried out in HEIs. We make IP more accessible to industry, by increasing the quality of circuit research carried at the centre.
MCCI competes in terms of scale and quality with the top 10 academics groups in analog and mixed-signal circuits worldwide.
MCCI is focusing on applications that are of international importance and maintaining a close alignment with multiple industry partners.
Cadence & Mentor IC Design tools
Process design kits for 350nm to 28nm silicon processes
Silicon bench test equipment (oscilloscopes, signal generators, logic analyser, power supplies)
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Specification and architecture of innovative circuit solutions for sensor, IOT, med/agri-tech and communications applications.
Design of solutions to silicon prototype level for such applications.
Evaluation of resultant silicon.
. Yes. service.
Sectors
Technology
SmartFactoryOWL
Overview
SmartFactoryOWL - NRW Competence Center for Digital Factories
The OWL University of Applied Sciences and the Fraunhofer Application Center IOSB-INA are located in Lemgo in the german state of North Rhine-Westphalia. Within their initiative - both institutes unify their competencies around industry 4.0 and demonstrate those technologies in the Factory of the Future - the SmartFactoryOWL.
The SmartFactoryOWL is located in the region OWL with a high density of manufacturing and automation vendor companies. Close collaboration between industry and the research institutes contributes to a high innovativity and cluster building in the area of ICT, automation and smart production. Due to these competencies, a competence center was established in those research institutes serving as a main contact and information point for SMEs to access new technologies in ICT. The creation of this competence center started in 2016 and a variety of offers with regard to qualification and technology transfer is currently… Gain an overview over the SmartFactoryOWL: http://www.smartfactory-owl.de/index.php/en/
SMEs have the chance to gain insight in the technologies of additive manufacturing. Several 3D Printers and correlated technologies are part of th SmartFactoryOWL and visualize the possibilities of rapid prototyping and direct digital manufacturing.
Additive Manufacturing
Different approaches of additive manufacturing technologies e.g. 3D Printing can be reviewed in the SmartFactoryOWL as well as correlated technologies. SMEs can get an overview over the possibilities of rapid prototyping and direct digital manufacturing.
Assistant Systems
Whether projection based assistant systems, robotic or Augmented Reality/ Virtual Reality - assembly and manufacturing is guided in the SmartFactoryOWL with assistant systems best as possible.
Connectivity and Big Data
Technologies of gathering, analyzing and using data are getting more important in production plants in order to improve performance and maintenance…. How does the SmartFactoryOWL support SMEs?
Demonstration: the 1800m² large Factory (www.smartfactory-owl.de) demonstrates several industry 4.0 technologies and enables SMEs to understand what those technologies comprise
Pilot Production: SMEs can extend parts of their production into the SmartFactoryOWL to test and evaluate new technologies or processes
Prototype Development: SMEs can enable their products for industry 4.0 with new hardware and software components offered by the institutes
Technology Services: SMEs can contact the SmartFactoryOWL for different services
Information
Lab Tours: SMEs can visit the SmartFactoryOWL to feel and touch Industry 4.0 technologies
excursion: SMEs can visit the SmartFactoryOWL and cooperating companies in groups from far located regions
networks: SMEs can participate to networks in order to interact with other companies about Smart Production
Demonstration
Demonstration of Industry 4.0 enabled demonstrators
…. Yes. service.
Sectors
Technology
INEGI
Overview
INEGI- INSTITUTE OF SCIENCE AND INNOVATION IN MECHANICAL AND INDUSTRIAL ENGINEERING is an industry-oriented Research and Technology Organization (RTO) with an organizational structure based on three pillars of activity: research with applied focus, innovation and technology transfer and consulting and advanced engineering services.
The research activity covers the areas of:
Advanced production processes
Experimental mechanics
Applied mechanics
Energy
New materials
Development of new products and systems
Biomechanics
The research infrastructure includes a broad set of well-equipped laboratories and an extensive engineering tools base for supporting its R&D activity as well as the production of industrial or commercial prototypes.
With a workforce of 220 employees, INEGI is a Non-profit Private association with a turnover of 8.0 million euros. More than 55% of this turnover comes from R&D and innovation projects funded by the industry. In addition, a strong collaboration (over… INEGI has a very complete set of resources to support their activity, particularly for laboratories to carry out experimental work, workshops for development of components and pre-series and a comprehensive set of tools to support engineering activity such as CAD 3D (Computer Aided Design), CAE (Computer Aided Engineering), structural simulation tools, IDEAS, COSMOS and ABAQUS, casting processes, simulation, polymer injection, CAM (Computer Aided Manufacturing) and state of the art tools to work in wind energy, flow simulation of atmospheric and geographic information systems.
. The responsiveness of INEGI, in developing solutions for the industry, is supported on a wide range of skills related to the field of Mechanical Engineering and Industrial Engineering and innovation of products and processes. INEGI often forms partnerships with other R&I institutions in terms of expertise. In its relationship with companies, normally project teams are formed with the participation of company staff in order to maximize the transfer and enhancement of knowledge.
The Institute has a cross-cutting intervention covering a wide range of industries. However, there are some sectors where INEGI has had a more significant impact and that are considered strategic for the development of the economic fabric. These sectors include: ENERGY, METALWORKING, PRODUCTION SYSTEMS, TRANSPORT, AERONAUTICS, SPACE AND DEFENCE, SEA ECONOMY, ENVIRONMENT, PUBLIC SECTOR, SERVICES SECTOR and HEALTH.
The Services provided are:
- Rapid Prototyping
- Characterisation of Materials and Structures
- Vibration and…. Yes. service.
Sectors
Technology
IMECC OÜ
Overview
IMECC Ltd (Innovative Manufacturing Engineering Systems Competence Centre) is a high-tech consortium which is owned by several Estonian industrial companies and Tallinn University of Technology as science partner. IMECC is a SME, founded in 2009. IMECC's main activities are research and development in the fields of digital manufacturing, process automation, mechatronics, and materials technology. IMECC manages and participates in several national and international projects (e.g. Erasmus+, Interreg, I4MS, ERDF etc) as well as offers several different services to companies (www.imecc.ee). IMECC has played active role also in competence development process, e.g. by publishing handbooks, organising trainings and workshops to the companies.
Main activity fields:
Research and development;
Smart learning – from methodology development to teaching programs with on-line or off-line realizations;
Contribution to business development in new emerging markets outside Europe.
Main… Cooperation partner Association of Mechatronics has very modern flexible manufacturing system (FMS) located in the same facilities on ground floor which is possible to use for research work. Also it is possible to use laboratories and equipment of Tallinn University of Technology (e.g. 3D printer, additive layer technology for rapid prototyping, 3D scanner, different measurement and testing devices and systems, industrial robots, etc.), IMECC’s owners and consortium partners (e.g. CNC machine tools, machining centres, measurement machines, laser welding equipment, etc.).
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Engineering services (e.g. recommendations for technology choice, cost calculations, technology audit, technological preparation of production, consulting on monitoring and robotics etc.)
Training (e.g. organising different kind of trainings, organizing conferences, organising composing and publishing of textbooks and special literature, elaboration of training methodologies, etc.)
Project services (administering and managing of projects, composing project applications, etc.)
. Yes. service.
Sectors
Technology
Biotrend SA
Overview
Biotrend runs a state of the art facility for the development and optimization of bioprocesses, from strain screening and raw material pre-processing to process integration, scale-up and validation.
Microbial strain screening
Micro-scale multiplexing capability includes culture (in anaerobic, microaerobic and fully aerobic conditions), centrifugal separation, extraction and analysis (UV/Vis spectrophotometer and HPLC).
This high-throughput platform is optimally designed to the screening of biocatalysts and for preliminary assessment of process conditions. Typical screening activities include:
Strains producing a specific compound, for example carotenoids (beta-carotene and lycopene), organic acids (succinic, lactic and acetic acid) or others such as ethanol and biosurfactants.
Strains able to cope with specific medium requirements, such as strains that grow on agroindustrial residues (ex. lignocellulosic hydrolysates and pulp and paper waste streams) in which the ability to use… - Multiplexed 1 mL microplate cultivation, interfaced with separation and analyitical equipment.
- Fully controlled bioreactors: 5x 2L, 2x 10L, 2x 50L and 1x 200L.
- Membrane filtration (ultra and microfiltration).
- Centrifugation (tubular and disk-stack).
- High-pressure homogenisation.
- Ion exchange and adsorption.
- Vacuum evaporation (continuous small scale).
- Preparative chromatography.
- Spray-drying.
- Freeze-drying.
- Miscellaneous.
- Overhead stirrers.
- Fume hoods.
- Laminar flow hoods (one moveable).
- Microscope with image acquisition.
- 20ºC and -80ºC freezers.
- UV/VIS Spectrophotometry (cuvette and microplate)
- HPLC (IR and UV, including diode array)
- Off-gas analysis (O2 and CO2).
Drying ovens
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Microbial strain screening
Micro-scale multiplexing high-throughput platform to screen biocatalysts and for preliminary assessment of process conditions. Typical screening activities include:
Strains producing a specific compound, for example carotenoids (beta-carotene and lycopene), organic acids (succinic, lactic and acetic acid) or others such as ethanol and biosurfactants.
Strains able to cope with specific medium requirements, such as strains that grow on agroindustrial residues (ex. lignocellulosic hydrolysates and pulp and paper waste streams) in which the ability to use C5 carbon sources and to resist to the presence of inhibitors (ex. furfural and derivatives, heavy metals) is important.
Process development and optimization
Process development and optimization is performed with our battery of fully controlled bioreactors, connected to data acquisition and control software. Normally fed-batch cultivations aiming at maximizing productivities, yields and…. Yes. service.
Sectors
Technology
Machine Technology Center Turku Ltd
Overview
Machine Technology Center Turku Ltd. is a modern learning, training and development center for enterprises, educational institutes and researchers in the region of Turku and Southwest Finland. The Center provides a dynamic and comprehensive environment for applied research and professional specialisation. Its facilities and services form a framework which supports and fosters cooperation between educational institutes, researcher organisations and local businesses. Services of the Center are offered to both students and professionals interested in deepening their knowledge and developing their skills in modern production methods and production automation processes.
The main shareholders of Machine Technology Center Turku Ltd. are Turku University of Applied Sciences, the City of Turku, Vocational Adult Education Foundation of Turku, and The Federation of Finnish Technology Industries in Southwest Finland, alongside approximately 80 enterprises. As an interface between companies and educational institutes… Machine Technology Center Turku Ltd. offers companies a variety of services such as training, proto product design, product development, production development, manufacturing, measuring and calibration services. The Center specialises in high-tech laser, robot welding, sheet metal, mechanisation and production automation technologies. Its machine tools include a combi sheet metal machine, a robot welding station, two laser units (2 kW and 10 kW), a bending machine with a robot, FMS-system, two machine centers, a multitasking turning machine (9-axis) and ZEISS Prismo Coordinate measuring machine.
. One of the main objectives on Machine Technology Center Turku Ltd. is to activate and support companies to develop their products as well as their production and manufacturing processes. The modern operational environment of the Center and our extensive professional networks provide companies with excellent opportunities to participate in a wide range of research and development projects. Services offered by the Center can focus on developing already existing products and production processes, or they can start already at prototype design and pilot stage. Services are tailored according to the needs of businesses and may include, for example, design, testing, production and automation services.
. Yes. service.
Sectors
Technology
Centre for Mechanical Technology and Automation
Overview
Due to its nature grounded in mechanical engineering, the Centre for Mechanical Technology and Automation (TEMA) is a strategic and relevant Research Centre for (and with) the Community, particularly business and industry.
TEMA is included in the “Portuguese Roadmap of Research Infrastructures of Strategic Relevance”, having been classified by FCT – Fundação para a Ciência e a Tecnologia and CCDRC – Comissão de Coordenação e Desenvolvimento Regional do Centro with the highest rating ("Category 1 - Those that have demonstrated high scientific potential and are considered to have high strategic regional and/or national relevance"), following the reference in https://www.fct.pt/apoios/equipamento/roteiro/index.phtml.en
TEMA Research Centre supports a multidimensional structure embracing three strategic specialization vectors: i) Fundamental and Applied Research; ii) Innovation, Technological Development and Technology Transfer to the Society; and iii) Consulting, Training and Services.
One of the key… As a result of the investments conducted by TEMA over its 20 years of existence, the Research Centre is able to provide a wide range of highly specialized equipment. The surface analysis system by Multi technique XPS/UPS and AES highlights the uniqueness of the services that the Research Centre provides to the Community. Namely, it is the only one available in Portugal, regarding the vacuum environment conditions at the 2E-10 mbar level. Together with this specificity and based in the mechanical engineering relies the Research Centre’s diversity. The Research Centre TEMA is equipped with a set of mechanical samples’ tests, whose combination can be considered as unique in Portugal. Ranging from high precision machinery of 1E-6 N (e.g. universal dynamic testing machine with a measuring range of 100 N), passing by equipment specialized in measuring biological tissues, obtained by means of in vitro cultures, to machines of 1000 kN that allows for testing advanced high strength steel alloys. It therefore becomes…. The main purpose of the Research Infrastructure TEMA is to provide services of excellence support for the scientific and technological research in the area of mechanical engineering, addressing the needs and demands of the clients and partners at the national and international levels. The value proposition of the Research Infrastructure TEMA is the ability to easily address complex challenges due to its natural combination of multidisciplinary areas, fed by a human capital whose expertise is highly recognized and complemented by a set of advanced equipment.
The priorities’ axes assumed by the Research Unit TEMA are: i) Materials; and ii) Health, properly contextualized with the region’s reality and, consequently, aligned with the Innovation Platforms: i) Sustainable industrial solutions; and ii) Technologies for the quality of life. In parallel, the Societal Challenges in which the Research Infrastructure TEMA has a direct and strategic action and responsibilities are i) Health; Demographic evolution and…. Yes. service.
Sectors
Technology
Antal Bejczy Center for Intelligent Robotics
Overview
The ABC Center for Intelligent Robotics (IROB) is a recently established independent research center within Óbuda University, devoted to promote the scientific and technological advancement of robotics.
IROB has three major focuses for operation:
Cutting edge development in the fundamentals of robotics—including hardware and software; mechatronics, control and application.
Bridging the development projects to particular applications, tapping into the scientific results to solve the emerging issues of modern society.
Disseminating current knowledge about robotics both in structured form via university courses and to the wider public.
The IROB at Óbuda University is the founder and current leader of the Central European Living Lab for Intelligent Robotics (CELLI), a network of 18 robotics centers and SMEs form 7 countries. It is also member of the euRobotics aisbl, and active in numerous Topical Groups.
The services offered to thirsd parties include basic RnD, prototypization, product… The center is well equipped with generic, traditional industrial robots, and also high-end human-centered robots. It also features multiple surgical robots and in-house developed prototypes. The eqippment of the machine shop fulfills all basic requirements.
Flexible laboratory area of 400 m2, biggest room is 102 m2.
Robots and related equipment:
1x da Vinci surgical robot system (IS2000) with DVRK controllers
1x KUKA youBot
1x KUKA iiwa cooperate robot
1x FANUC m1-iA delta robot
1x FANUC M-430iA/2F industrial robot
4x NAO 4th gen.
1x FreeHand laparoscope holder
2x Falcon haptic device
6 DoF tracking devices, 2 Oculus Rift V1 DevKits, Kinect sensors, LRF, etc.
Well-equipped workshop for prototyping (including machining and 3D printing capabilities)
Computers, software and development tools
. Due to its extensive experience in robot control and excellent laboratory background, IROB will be the responsible for developing the prototype’s sensing, actuation and control strategy, and making use of knowledged-base systems for optimal planning and execution, also to guide the operations of the pilot experiments performed within the project. The already existing robotic infrastructure allows for setting up a broad range of lifelike test scenarios assisted by conventional industrial robotics (Fanuc robots, KUKA robots) to real surgical applications (da Vinci Research Kit). Óbuda University has direct access to medical research facilities and small animal laboratories via its national and international cooperation partners (including Semmelweis Medical University in Budapest and the Austrian Center for Medical Innovation and Technology in Wiener Neustadt).
. Yes. service.