Microfluidic cells for high-throughput multiple response analyses - Project - Bridge of Knowledge

Search

Microfluidic cells for high-throughput multiple response analyses

During the implementation of the project, electrode materials of high application and implementation importance will be produced and improved. The project will contribute to the development of material science laboratories located at the faculty of Electronics, Telecommunications and Informatics. The direct effect of the project will be the creation of technology that allows the construction of microfluidic electrochemical cells for ultra-sensitive analyzes, ready for further commercialization. In addition, the conducted research will result in the form of numerous publications in magazines included in the Q1 Philadelphia List (not less than 100 Ministry of Science and Higher Education points). The research project will be carried out in a scientific consortium together with the Institute of Physical Chemistry PAS, redoxme (leader) and a partner from Norway - Sintef. Broad and interdisciplinary scientific cooperation will contribute to the attractiveness of the scientific offer of the Gdańsk University of Technology.

Details

Project's acronym:
UPTURN
Financial Program Name:
EEA and Norway grants - Applied Research Programme
Organization:
Narodowe Centrum Badań i Rozwoju (NCBR) (The National Centre for Research and Development)
Agreement:
NOR/POLNOR/UPTURN/0060/2019-00 z dnia 2020-12-21
Realisation period:
2020-11-01 - 2024-04-30
Research team leader:
dr hab. inż. Robert Bogdanowicz
Realised in:
Department of Metrology and Optoelectronics
External institutions
participating in project:
  • Sintef MinaLAB (Norway)
  • redox.me AB (polski oddział) (Poland)
  • Instytut Chemi Fizycznej PAN (Poland)
Project's value:
6 845 399.85 PLN
Request type:
International Research Programmes
Domestic:
International project
Verified by:
Gdańsk University of Technology

Filters

total: 9

  • Category

  • Year

  • Options

clear Chosen catalog filters disabled

Catalog Projects

Year 2024

Year 2023

Year 2022

seen 2080 times