The role of ionic liquids in CO2 photoconversion

The main objective of the proposed project is to elucidate the role of of ionic liquids (ILs) in these compound-impregnated metal organic frameworks (MOF) in the CO2 photoconversion reaction. Specific objectives of the proposed project include: (1) development of a new group of MOFs modified with ionic liquids, with improved photocatalytic properties in the CO2 photoconversion reaction; (2) elucidation of the type of interactions between CO2 and ionic liquid adsorbed/ bound to the MOF determining the photoconversion of CO2 to hydrocarbons; and (3) to propose an excitation mechanism of IL/MOF composite under UV and Vis light, as well as the mechanism of photocatalytic reactions occurring on their surface. The project will be carried out in collaboration with scientists from University of Gdansk, University of Pisa and Yachay Tech University.

Details

Project's acronym:

IL-MOF

Financial Program Name:

OPUS

Organization:

Narodowe Centrum Nauki (NCN) (National Science Centre)

Agreement:

UMO-2021/41/B/ST4/00849 z dnia 2021-11-26

Realisation period:

2021-11-26 - 2025-11-25

Research team leader:

dr hab. inż. Justyna Łuczak

Realised in:

Department of Process Engineering and Chemical Technology

External institutions participating in project:

Uniwersytet Gdański (Poland)

Request type:

National Research Programmes

Domestic:

Domestic project

Verified by:

Gdańsk University of Technology

Papers associated with that project

results on page:
year:
- selected sort by year newest first
- sort by year oldest first
title:
- selected sort by title A-Z
- sort by title Z-A
citation:
- sort by citation descending
- sort by citation ascending

Filters

total: 1

Year 2023

Morphology control through the synthesis of metal-organic frameworks
Publication
- J. Łuczak
- M. Kroczewska-Gnatowska (formerly: M. Kroczewska)
- M. Baluk
- J. Sowik
- P. Mazierski
- A. Zaleska-Medynska
- M. A. Baluk
- ADVANCES IN COLLOID AND INTERFACE SCIENCE - Year 2023
Designable morphology and predictable properties are the most challenging goals in material engineering. Features such as shape, size, porosity, agglomeration ratio significantly affect the final properties of metal- organic frameworks (MOFs) and can be regulated throughout synthesis parameters but require a deep under- standing of the mechanisms of MOFs formation. Herein, we systematically summarize the effects of the indi- vidual...

Full text available to download

seen 568 times