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definition mnii
Definition (MNiI)

Center for Advanced Technologies is a consortium composed of scientific units performing research at the international level, and other units promoting and interested in scientific research, development innovations and commercialisation.

The consortium partners can, based on mutual agreement, perform the interdisciplinary tasks focused on elaboration, development and commercialisation of new technologies associated with science fields assumed as the extremely important for national economy concerning the scientific and innovation policy.


Analysis of the current state


Strategic activity axes

Main objectives


Specific objectives

Main tasks


Relation between CAT and Regional Innovation Strategy


Joint actions of all partners for creation of advanced technologies at the pre-industrial technologies and enhancement of their transfer to an industry to satisfy the market demands.

strategic activity axes
Strategic activity axes


Functional materials

Environment protection


main objectives
Main objectives

Applied research

Development of advanced technologies

Enhancement of commercialisation (pre-industrial stage)

main tasks
Main tasks

Foundation of research and technological infrastructure

Generation of multipartner projects

Development of advanced technologies

Intelectual property protection

Technical advising

Enhancement of formation of excellence and competence centers, trnsfer technology centers, specialistic laboratories and small enterprises, new workplaces

Exploration of potential application areas

Collection and dissemination of information

Promotion and marketing



Pre-industrial technologies

Joint research and investment projects

Industrial cooperation agreements

Entrepreneurs contacted the CAT (CZT)


The project „Center of Advanced Technologies POMERANIA”financed by the E.U. structural funds:the Regional Operational Programme of the Pomerania Voyevodship(6 Mln EURO)
CAT Pomerania - foundation: 2000 r.

28 partners (universities and enterprises)

Coordinating partner: Gdansk University of Technology

biotechnology food and drugs chemistry
Biotechnology, food and drugs chemistry

Baltic Center of Biotechnology and Innovative Diagnostics

information technologies and telecommunications
Information technologies and telecommunications

Civitronics Center

Laboratory of Metrology and Information Systems

Environmental Laboratory of Wireless Technologies

A great number of industrial partnerships and agreements

ICT Cluster

environment protection
Environment protection

Mobile Laboratory of Environment Diagnostics and Protection

Ecology Cluster

functional materials and nanotechnologies matech
Functional materials and nanotechnologies (MATECH)

Laboratory of Nanomaterials

Laboratory of Biomaterials

Laboratory of Syntesis of Innovative Materials and Elements

Laboratory of Optoelectronic Measurements of Innovative Materials and Displays

Laboratory of Polymers

Laboratory of Nanomaterials and Nanocomposites

Laboratory of Characterisation of Luminescent Materials and Nanomaterials


Gdansk University of Technology:

Dep. Materials Science and Engineering,

Dep. Optoelectronics,

Dep. Chemical Technology,

Dep. Technology of Polymers,

Dep. Physical Chemistry,

Dep. Solid Staste Physics,

Dep. Physics and Electronic Phenomena,

Dep. Materials Engineering, Corrosion and Electrochemistry

Gdansk University:

Dep. Chemical Technology,

Dep. Organic Chemistry,

Dep. Supramolecular Chemistry,

Dep. Condensed Phase Spectroscopy

Gdynia Maritime Academy:

Dep. Ship Materials and Repair Technology

Ship Design and Research Center:

Dep. Materials Science, Corrosion and Environment Protection


11 laboratories supported by the CZT Project (A. Zieliński – chairman)

A number of joint industrial or industry-oriented project

Center of Knowledge and Entrepreneurship

Regional Transfer Technology Center

Academic and Student Entrepreneurship Incubators

Education and information

information and promotion
Information and promotion

Webpage of the project

Mass media

Seminars and workshops


Technical Information Fast Service (TIFS)

next phase clusters
Next phase: Clusters

Biobaltica Center

Ecology Center

Biotechnology Center

ICT Cluster

Energy Power and Conversion Center

Bioengineering Center

bioengineering center
Bioengineering Center


GUT (WM – 5 departments, WETI< WCh, WFTiMS)


Implant producers (Medgal, Eskulap et al..)


Polish-Icelandic ERA-NET MATERA project

Application within the Polish - Swiss Research Programme

Application for numerous national projects

Industrial cooperation (Norwich holding)

International cooperation:







Great Britain,


Fabrication technologies of bioactive titanium implants
  • Powder metallurgy and rapid prototyping (Selective Laser Melting)
  • Composite bioactive metal-ceramic-polymer porous implants filled in with biodegradable core material
  • Advantages: more comfort, longer lifetime
Technologies for superhard layers for specialty alloys
  • Multiplex layers of very high hardness, corrosion resistance, biocompatibility for tools and implants
nanomodification of surface layers on elements made of nonferrous alloys
Nanomodification of surface layers on elements made of nonferrous alloys
  • Cryogenic laser tretament is applied for Cu and Al. Alloys allowing the increase in hardness, corrosion resistacne, tribological and tribocorrosion resistance
  • Technology applicable for Diesel engines and ship propellers
CVD technology for thin carbon, diamond-like-carbon and diamond structures

For hardening of optical, mechanical, mechatronical systems

Liquid crystalline polymers

For surfaces of glassy optical elements.

Fabrication technologies of luminescent materials
  • Applications
  • -Low energy batteries
  • -Luminophores and LED lamps
  • -X-ray screens
  • -Components of lighting paints
Fabrication technologies

of luminescent materials

  • Synthesis of powder metallurgy produced oxide materials dopped with some rare earth and transient metals.
Fabrication technology of oxide-nitride aerogels
  • Better in mechanical strength and thermnal resisance than conventional SiO2 aerogels.
  • For thermoinsulating materials of improved mechanical strength


Ceramic materials for oxide fuel cells

  • Advanced fabrication technologies of planar ceramic fuel cells for moderate temperatures (IT-SOFC)
Superconductivity ceramics for energy supplies

Fabrication technologies of YBaCuO and BiSrCaCuO

[Nature 414(2001)368]

magnetic nondestructive tests of degradation of metallic constructions
Magnetic nondestructive tests of degradation of metallic constructions
  • Original tests:

Zasada badania za pomocą elektromagnesu jarzmowego: 1 – detektor EMA, 2 – detektor HEB, 3 – smar, 4 – jarzmo

  • intrinsic stresses by Barkhausen effect
  • degradation degree of materials operating under conditions of varying stresses and temperatures by magnetoacoustic emission and eddy currents
  • disconituities by measurement of dispersed magnetic field and bu an use of magnetostrictive pulses
advanced polymers
Advanced polymers

Fabrication technologies of materials composed of PU and recyclates from garbage of polymers and rubber.

Fabrication technologies of PU technical goods for extremely conditions and for households.

Polyurethanes (PU) and PU-based composite and nanocomposite materials.

  • .
Syntethic molecular receptors for diagnostics and nanotechnologies
  • Sensors for analitycs
Optical chemical sensors
  • For medicine and in environment protection to recognise e.g. copper and lead.
  • Chemosensor is an element deposited on mesoporous ceramics. It is insoluble.
  • To enhance the sensibility, the silver or gold nanostructures are applied.
Luminescent materials as an alternative light source
  • Proposed luminescent materials are composed of oxide xerogels and optically active components
  • They are fotochemically more stable than so far used materials even at higher temperatures.