Finished projects

LIDER/463/L-6/14/NCBR/2015 (02.2016-01.2019; 1 177 500,00 PLN): "Development of production technology of environmentally friendly LMOS nanomaterial for inexpensive Li-ion batteries"; the National Centre for Research and Development, supervisor: Michał Świętosławski, the project is carried out at the Faculty of Chemistry at Jagiellonian University

https://ztmin.chemia.uj.edu.pl/lider-lmos

INNOVATION INCUBATOR+ (01.2018-12.2018; 80 000 PLN): "The enlargement of the scale of LKMNO cathode materials manufacturing process and validation of the performance parameters of C/Li+/LKMNO cells in the test system", the Ministry of Science and Higher Education, supervisor: Monika Bakierska, the project is carried out at the Faculty of Chemistry at Jagiellonian University

https://ztmin.chemia.uj.edu.pl/inkubator-innowacyjnosci-

The Polish National Science Centre, OPUS 7, "Studies and characterization of physicochemical processes in C/Li2MnSiO4 cathode working in Li-ion battery", 2014/13/B/ST5/04531 (2015 –2018; 776 520,00 PLN)

The Polish National Science Centre, PRELUDIUM 4, "Development of a new generation of C/Sn anode nanocomposites for high capacity lithium- ion batteries", 2012/07/N/ST8/03725 (2013 - 2016; 135 980,00 PLN)

EIT (European Institute of Technology) KIC (Knowledge & Innovation Community), "InnoEnergy Project for the topic Clean Coal Technologies, New Materials for Energy Systems (NewMat)" (2011 - 2014)

The Ministry of Science and Higher Education/The Polish National Science Centre, "Development of stable, C/Li2MSiO4 nanocomposite cathodes for high capacity lithium-ion batteries", N N209 088638 (03.2010 - 03.2013; 358 875,00 PLN)

European Union, European Regional Development Fund, "Modern Materials and Innovative Methods for Processing and Energy Monitoring (MIME)", POIG 01.01.02-00-108/09 (2009 - 2014; 22 143 492,00 PLN)

The Ministry of Science and Higher Education, "Development of the CuxCe1-xO2-y - nanocrystalline catalyst for low temperature, complete oxidation of volatile organic compounds (VOC) and their halogen derivatives(Cl-VOC)”, N N209 099337 (2009 –2012; 388 500 PLN)

The Ministry of Science and Higher Education, "New, structurally stable, composite cathode materials for lithium-ion batteries based on sulphur doped manganese spinel", KBN 3 T08D 010 28 (2005 - 2008)

"Determination of thermal and structural stability of sulfur-substituted manganese spinel", DBN-414/CRBW/IX-11/2005 (2005)

The Ministry of Science and Higher Education, "Characterization of lithium manganese spinel Li1 + δMn2-δO4 obtained by the sol-gel method in comparison to the materials obtained by the standard methods", KBN 7 T08D 019 21 (2001 - 2003)