The University of Warsaw Biological and Chemical Research Centre (CNBCh UW) serves as a centre for modern technologies by conducting scientific research that are strategically important for economic development of Poland. The CNBCh UW was established by the regulation of the Rector of the University of Warsaw on the 30th of May 2012 and it gathers the most talented young researchers, as well as experienced scientists from diverse disciplines who carry out innovative and interdisciplinary research at the interface of biology and chemistry. The mission of the center is to support the transfer of knowledge and technology into the economy, while strengthening collaboration between the University of Warsaw and the business sector.
Advanced research of the paramount scientific importance are carried out at the Centre that results enable further development of new technologies in the field of energetics, pharmaceutical analytics, medicines, biotechnology, protection of natural environment and cultural heritage… CNBCh UW includes the most up-to-date research equipment, among others:

X-ray Diffractometer System Agilent SuperNova, Atomic Force Microscoper Bruker dimension Icon, High Precision Mass Spectrometer Nu Instruments with Multi – Collector, Zeiss FIV-SEM Crossbeam Microscope, Transmission Electron Microscoper FEI Talos with EDS detector, Near Ambient Pressure X-Ray Photoelectron Spectromenter (NAP-XPS) CPEC, PET/SPECT/CT Carestream Albira imaging system for small animal research, Eckert and Ziegler Modular – Lab for radiopharmaceuticals synthesis, Thermo Scientific Orbitrap Fusion Mass Spectrometer, NMR Agilent 400MHz with autosampler, Activio-P11 Automated Peptide Synthesizer, Scribner Associated 850e Fuel Cell Test System,, UHPLC Agilent with Mass spectroscoopy detector and Orbitrap, Delta V Isotope Ratio Mass spectrometer, Potenstiostat/Galvanostat with impedance spectrometer 1260 A and adielectric module 1296 A Ametek 1287 A
. CNBCh UW cooperate and provide services in the following areas:

 - Complex analysis of chemical and biological substances regarding their structure, content and properties (including measurements with accordance to PN-EN ISO/EIC 17025:2005 ensuring the acceptance of results in areas that are regulated by law);

- Establishing modern, efficient processes of organic synthesis; 

- Environmental analyses and expertise, including i./a.: mycological expertise, monitoring of water quality and biological diversity of the environment, vegetation inventory, creating maps and plans of environmental systems;

- Simulation of protein molecular dynamics, designing new drugs and testing their bio-distribution and metabolism using isotopic and optic imaging techniques

- Designing and establishing new detectors, bio-detectors and electrode materials, and performing precise electrochemical measurements,

 - Establishing new materials, research on new energy sources and methods of its storage (accumulators and…. Yes. service.

VITO partners with industry to increase process efficiency and sustainability, and to evaluate the potential of alternative non-fossil resources in new value chains.

VITO’s industrial innovation targets the design of novel process concepts as well as improvement of existing ones. Core technology domains are:

Separation: membrane technology, extraction, electroseparation
Conversion: (electro)chemistry, (bio)catalysis
Integrated separation and conversion for process intensification.

VITO operates as an independent and neutral partner, at the interface between industry, academia and authorities and provides:

A multi-disciplinary international team of high level experts
A wide range of infrastructure & equipment
Fast & agile solutions
Access to a broad network (expertise & funding).

European networks:

Bio-Based Industries Consortium (BIC – www.biconsortium.eu)
PPP SPIRE - Sustainable Process Industry through Resource and Energy Efficiency (www.spire2030.eu)
… Equipment for:

Analytical characterization of biomass and processes
Biomass pretreatment and fractionation
Biocatalysis
(Gas) Fermentation
Green chemistry
(Bio)Process intensification
Downstream processing
Resource recovery

Technologies available at lab- and/or pilot scale include:

Low and high pressure membrane filtration
Organophilic and hydrophilic pervaporation
Membrane distillation
(Membrane-based) Capacitive deionization
(Membrane-based) (reactive) Extraction
Supercritical extraction
Fermentation

. VITO offers

Research from lab to pilot scale: conceptual design, process development and optimization, (integrated) process design, prototyping and testing, support up to full scale implementation
Techno-economic assessment of concepts and technologies
State-of-the-art infrastructure including facilities to work in a wide range of chemical conditions, and/or according to GMP regulations, as well as facilities to test your (GMO) organism
Objective advice, no strings with specific technology provider.

We have a multi-disciplinary team and advanced chemical analysis capabilities.

We guarantee strict non-disclosure.
. Yes. service.

The Leibniz Institute of Polymer Research Dresden (IPF) is one of the largest polymer research facilities in Germany. As an institute of the Leibniz Association, the IPF is committed to carrying out application-oriented fundamental research and receives its basic funding in equal parts from the federal and state governments.

The approach is holistic, covering synthesis and modification of polymer materials, their characterization and theoretical investigation, up to processing and testing. A special feature of the institute’s activities is the close cooperation of scientists and engineers and a broad range of modern instruments and methods are available including pilot plants allowing material and technology development under industry-relevant conditions.

The research focus is on materials problems and needs which can be approached by control of interface-related properties as well as interactions at interfaces and surfaces. A deep understanding of techniques and processes as well as of underlying… www.ipfdd.de
.
Fields of Research work

The institute's profile is determined by four strategic topics:

Functional nanostructured interfaces and polymer systems
Biology-inspired interface and material design
Polymer networks and supramolecular structures
Process-controlled structure formation in polymer materials

. Yes. service.

Doseo offers radiotherapy technology research and development resources unrivaled in Europe. Manufacturers, researchers, and clinicians can use our state-of-the art equipment for their own research and work with our expert scientists and technicians on joint R&D projects. 

One of Doseo’s missions is to open its doors to and build relationships with and between all radiotherapy stakeholders. Cooperation takes the form of partnerships between CEA LIST R&D scientists and technicians and manufacturing companies, academic institutions, and treatment centers.

These partnerships are designed to transfer new technology to businesses; speed the innovation process by leveraging diverse know-how from various disciplines; and take into account the viewpoints of end users, whose recommendations and approvals are vital to the process.

The French Alternative Energies and Atomic Energy Commission (CEA) contributes to industrial and economic growth through R&D partnerships that help businesses develop innovative… Doseo is home to a 1,000 sq. m technology platform used solely for R&D and training. The platform is also home to 600 sq. m of offices and meeting rooms so that our industrial, clinical, and academic partners, regulatory professionals, and visitors can take full advantage of the facilities.

Doseo boasts a very complete range of equipment representative of the installed base of radiotherapy and associated medical imaging equipment in use in France, with:

Medical-grade accelerators
Brachytherapy equipment
X-ray Computed Tomography scan (CT)
Irradiators
Measurement instruments
Calculation cluster
Conference and training rooms

. Doseo proposes four different types of services.

1. R&D partnerships

You can become an R&D partner by:

Signing a joint R&D agreement between your organization and CEA LIST
Taking part in a multi-partner research project under French and EU programs (French National Research Agency, French Single Ministerial Fund, EU Horizon 2020, etc.)

As a partner, you will work in synergy with Doseo’s research scientists. The Doseo platform, equipped with state-of-the-art technologies and managed by experts in radiotherapy and associated imaging technologies (metrology, simulation, instrumentation, and more), promises optimal R&D conditions.

2. Radiotherapy and imaging training programs

INSTN (France’s National Institute for Nuclear Science and Technology) works closely with its partners to provide radiotherapy and imaging training for professionals as well as for students. Training participants will have the exceptional opportunity to access the Doseo technology platform’s equipment and…. Yes. service.

The Institute of Natural Fibres and Medicinal Plants INF&MP (Intytut Włókien Naturalnych i Roślin Zielarskich, IWNiRZ) is an interdisciplinary research centre with international standing, involved in complex research on obtaining and processing of fibrous and herbal raw materials.
The main fields of IWNiRZ activities:

Biotechnology,
Breeding new cultivars of fibrous and medicinal plants, agronomy and preliminary processing,
Extraction and processing technologies of natural fibres and their modification for textile and non-textile applications,
Development of functional textiles including pro-healthy and medical products based on natural raw materials,
Agro-fine chemicals obtained from plants, nutrients and dietetic products,
New applications for oil cultivars of fibrous plants (dietetic and medicinal products),
Bio-fuels obtained from fibrous plants,
Development of renewable, biodegradable raw materials for industry,
Technologies of fire- and bio-retardants production,
Environmental…
Automatic Tensile Tester – STATIMAT ME - Determination of indices at static tension (elongation at break, tenacity, breaking force).
USTER AUTOSORTER III – Determination of yarn linear density (mass per unit length).
Martindale Abrasion and Pilling Tester – Determination of the abrasion resistance of fabrics and propensity to surface fuzzing and to pilling.
Air Permeability Tester III FX 3300 – Determination of permeability of fabrics to air.
Solarscreen Fabric Analyzer CARY 50 – Solar UV protective properties -method of test for apparel fabrics.
SGHP -8.2 (Sweating Guarde Hot Plate) - Determination of physiological properties. Measurement of thermal and water-vapour resistance under steady-state condition.
SEM S-3400N (Scanning Electron Microscope) – Evaluation of fibres surface as well as cross section, shape, fibre diameter, area of cross section, fibres damages and modification.
TGA FTIR – Set for quality and quantity identification on natural fibers.
Skin Surface Moisture Content –…. ·        Trainings in terms of material science of natural fibers and medicinal plants, agriculture methods of fibrous plants cultivation, technology of bast fibers extraction; training dedicated to SMS in textile, herbal and agriculture sector as well as handicrafts and artistic work based on natural fibers, natural dyeing and printing;

·        Prototyping – example:  prototype of clothing supporting skin diseases treatment;

·        Development of technologies of natural flax and hemp fibers extraction, modification, dyeing with natural dyestuff, nanocoating, functionalization, composites with the use of renewable resources, technology for obtaining cannabinoids from hemp with a low THC content, improvement of thermal and fire resistance;

·        Testing of fibers, semi-products and textile products, in terms of their properties, chemical composition, as well as test of textile influence on human body; flammability, microbiological tests, flax seed Lini semen (chemical composition and…. Yes. service.

VTT is a broad-scope contributor in international nuclear research. We provide contract services internationally - about 20% of commercial assignments are coming from abroad. VTT is independent and has a solid reputation as the leading Technical Support Organisation of the Finnish nuclear safety authority (STUK) for more than 30 years.

The VTT Centre for Nuclear Safety facility executes a wide range of research and testing activities on materials utilized in nuclear power plants and spent fuel final repository systems, particularly activities involving radioactive substances.A portfolio of standardized and accredited methods as well as sophisticated tools and techniques are available.Nuclear power plant operators and suppliers can have their materials tested for mechanical and chemical performance, and analysed for compositional and microstructural characteristics, both in the new, unused condition, as well as after operation in the plant environment or after accelerated aging or radiation exposures.

…
Hot cells for specimen fabrication, mechanical testing and microstructural characterization.  Capable of receiving components of up to 3.7 TBq Co-60 radioactivity in transport casks of up to 10 tonnes weight.
Zeiss Crossbeam 540 Analytical Scanning Electron Microscope (SEM) with EDAX Triade system for wavelength- and energy-dispersive x-ray spectroscopy and electron back-scatter detection (EDS, WDS and EBSD)
FEI TALOS F200X FEG Analytical Scanning/Transmission Electron Microscope with Gatan Enfinium SE/976 Electron energy loss spectroscopy (EELS).  Microscope has built-in 360° EDS via four energy dispersive spectrometers.
Cormet slow-strain rate testing autoclave and water circulation loop for up to 360°C and 220 bar operation, with simulated light water reactor primary circuit water chemistry environments and test durations from 1h to several months.
Radiochemistry laboratory for low activity specimens
Aerosol laboratory with several methods to generate gaseous and aerosol compounds
…. Services include expert assessments, particularly of radioactive and radioactively contaminated materials and components.Assessments include failure analyses of power plant components, accredited mechanical testing of radioactive materials, characterization and microanalysis studies of radioactive materials, radioactivity and radionuclide assessments, and customized R&D project and program planning and execution.
. Yes. service.

Polifab is the open-access, micro and nanofabrication facility of Politecnico di Milano.

It has been created to provide the highest technological standards for a wide range of applications, including micro and nanoelectronics, photonics, biotechnologies, advanced materials and nanotechnology. The mission of Polifab is to support and boost the activities of the research groups of Politecnico as well as of external research institutions and industries.

Polifab aggregates users active in education, research, development and prototyping, thanks to collaborations and strategic alliances with external partners.

The core of Polifab is the clean room, made of two adjacent areas:

150 m2, class ISO 06, with facilities for:       

- optical lithography

- electron beam lithography

- wet and dry etching

- thin film deposition

- metrological characterization

220 m2, class ISO 08, including:

- access and grey areas

- back-end

- magnetic thin films area

A laboratory for the…

For more details on equipment an processes visit our website:

http://polifab.polimi.it
. Polifab is an open-access, pay-per-use facility, open to research groups of Politecnico as well as to external research institutions and industries. Some processes can be run by the technical staff of Polifab and offered as service to external companies or research groups. In most of the cases, however, researchers are supposed to enter the cleanroom and become users of the facilities, after proper training courses given by the technical staff of Polifab.

To access the cleanroom facilities first contact the Polifab staff to discuss your technological need, verify the feasibility at Polifab, quantify the amount of time needed and identify the model of use: service or user.

Service model

The Polifab staff will execute the required processes, characterization or prototyping within the framework of a research or service contract. No direct access of personnel from the external research group or company is required.

User model

All new cleanroom users must first attend a safety course and…. Yes. service.

Polifactory (www.polifactory.polimi.it) is a multidisciplinary research lab and makerspace of Politecnico di Milano launched in march 2015 by the Department of Design in collaboration with the Departments of Mechanics and Electronics, Information and Bioengineering. Polifactory investigates the relationship between design and new production models developing research, experimental and training/educational activities focused on:

innovative interactive products and services designed and (co)developed for large scale companies and SMEs exploring in a systemic way the potential of design, digital fabrication and embedded technologies (open hardware);
innovative processes of open and distributed production and (small) urban manufacturing. Polifactory develops research and pilot projects at local, national and international level collaborating with public bodies to stimulate open and peer-to-peer collaborative processes between designers, makerspaces and companies (in terms of developing innovation…
Additive manufacturing: FDM 3D printers of various sizes and a stereolithography machine for high quality 3D printing (SLA) to prototype and manufacturing products and experimenting/testing innovative materials for 3D printing in collaboration with companies (in partnership).
Subtractive manufacturing: laser cutting machine, 3 axis CNC big milling machine and two 3 axis CNC desktop milling machines to materialize prototypes (parts and components for IoT).
Physical Computing: technical equipment to design, prototype, materialize and debug PCBs for prototypting and developing electronics hardware an open hardware.
Moulding and casting: combined use of CNC machines and electro tools to create small molds for casting and thermoforming objects and experimenting/testing DIY materials (a concept of self-produced materials, www.sciencedirect.com/science/article/pii/S0264127515300964)

. Polifactory is a 300 sqm makerspace that collaborates with companies and public bodies and organizations to materialize interactive product-service systems integrating design, digital fabrication and embedded technologies. It develops, coordinates and manages competitive research and experimental projects exploring the relationship between design and digital transformations in manufacturing. Polifactory offers the following set of services to large scale companies, SMEs, public bodies and institutions:

consultancy activities focused on the strategic use of design and digital fabrication processes within innovation and manufacturing processes;
research activities on design and prototyping of digital product-service system included development, validation and testing with users (groups and communities);
development of pilot-projects at local, national and international institutions stimulating the collaboration between professional creative communities (designers, engineers,...), makerspaces and…. Yes. service.

Materize is a platform for innovation and collaboration with industry. We combine the best of scientific expertise formed into a process and language that is easily accessible for industry to make scientific expertise beneficial to business.

Materize is a part of the Institute of Solid State Physics, University of Latvia, with its 40 years of experience and team of more than 230 employees.

Most of the international services and applications are being delivered in partnership with the industrial partners, providing a solid base for test-beds infrastructure, scaling-up services and ensuring high quality and time-to-market needs. 

Materize is a part of national innovation ecosystem for smart materials and photonics. 

The Institute of Solid State Physics, University of Latvia (ISSP UL), is the leading research centre in Latvia that can provide internationally competitive research in materials science and provide innovative solutions for industrial applications. 

The Institute is a national contact… Materize / ISSP UL has the only classified laboratory cleanroom facilities (680 m2, ISO class 7-8) in Latvia, suitable for research, development and prototyping. It is equipped with different technologies including e-beam and optical lithography, thin film deposition, microscopy and morphology characterization. 

Materize / ISSP UL provide advanced spectroscopy (from UV to IR and X-ray), microscopy (from optical to TEM), structure analysis, dielectric & electric characterisation, electrochemical and other methods. 
. We provide services starting from transferring an idea into a proof-of-concept device, through prototype which is close to the production stage and ending with up-scaling services provided by our industrial partners in the field of thin film coatings, fibre optics, LCD technologies, microelectronics, sensors and other devices/technologies. 

We offer characterization and testing services including advanced spectroscopy (from UV to IR and X-ray), microscopy (from optical to TEM) and morphology, structure analysis, electrochemical, dielectric & electric characterisation. 
. Yes. service.

Warsaw University of Technology (WUT), founded in 1826, is one of the largest institutions of higher education in the Central Europe and the largest university of technology in Poland. In the last two years the University won the first place among the 20 of universities of technology. WUT employs over 2500 academic teachers / researches. More than 30.000 students, at different levels study at WUT at 17 departments. Beside academic teaching WUT is very active and successful in research performed within: the University internal and statutory research, individual research  projects financed by the Ministry of Science and Higher Education (ap. 650 grants /year), contracted works commissioned by industrial companies, international co-operation on the basis of over 150 projects realized within 6th and 7th Framework Programmes and over 162 bilateral agreement.

The Institute of Micromechanics and Photonics (IMP), is a part of Faculty of Mechatronics at WUT. The main (internationally recognized) research… The Institute of Micromechanics and Photonics owns fully-equipped laboratories including interferometric and holographic laboratory, optical methods of testing in experimental mechanics laboratory, spectroscopic laboratory, optical sensors laboratory, 3D/4D  measurement laboratory and virtual reality laboratory, a clean room and an optical workshop.
. Photonics is the Key Enabling Technology that is researched at the Institute of Micromechanics and Photonics. The services we offer to the companies include but are not limited to:

development of numerical algorithms supporting automatic fringe pattern analysis, iterative phase retrieval and tomographic reconstruction,
development of novel measurement methods based on diffraction, propagation, interference and polarization of coherent and quasicoherent light,
development of measurement and monitoring methods based on incoherent light,
development of optical and photonics measurement systems incl. interferometric, digital holography, grating (moire) interferometry, optical diffraction tomography, and systems based on a single beam phase reconstruction methods,
development of measurement systems based on digital image correlation method, thermovision techniques, structured light and “time-of-flight” methods,
development of novel wide viewing angle 3D holographic displays with coherent and…. Yes. service.