Partner: Jacek B. Jasiński


Recent publications
1.Mościcki T. P., Psiuk R., Jarząbek D. M., Ciemiorek-Bartkowska M., Kulikowski K., Jasiński J., Włoczewski M., Lewandowska-Szumieł M., Effect of titanium and deposition parameters on microstructure and mechanical properties of W-Ti-B thin films deposited by High Power Impulse Magnetron Sputtering, SURFACE AND COATINGS TECHNOLOGY, ISSN: 0257-8972, DOI: 10.1016/j.surfcoat.2024.130915, Vol.485, No.130915, pp.1-13, 2024
Abstract:

Tungsten diboride alloyed with transition metals provides an opportunity to obtain exceptional mechanical, physical, and chemical properties. We report a strategy for designing and synthesizing of superhard and low-compressible ceramic thin films with increased toughness and lowered residual stresses (σ < −0.9 GPa) deposited with high-power impulse magnetron sputtering (HiPIMS) from one target. The addition of 7–12 % titanium promotes additional strengthening mechanisms of the layers in one material, leading to the improvement of wear resistance compared to an alloyed WB2-z yet at even higher hardness 43.8 ± 2.1 GPa and nanoindentation toughness 4.9 ± 0.2 MPa√m. The compression of the micropillar shows that titanium addition changed the type of nanoindentation from cracking along the slip plane to bulging on the top of the pillar and next the crack initiation along column boundaries. The highest adhesion of the layers is obtained for addition of 7 % titanium and in all cases the wear has abrasive character. The controlled use of 200 μs pulses during synthesis with HiPIMS allows for an increase in the deposition rate and maintaining exceptional mechanical properties of the layers even at a substrate temperature of 300 °C.

Keywords:

Ternary transition metal diboride thin films, Mechanical properties, HiPIMS magnetron sputtering, Wear resistance and adhesion

Affiliations:
Mościcki T. P.-IPPT PAN
Psiuk R.-IPPT PAN
Jarząbek D. M.-IPPT PAN
Ciemiorek-Bartkowska M.-other affiliation
Kulikowski K.-other affiliation
Jasiński J.-other affiliation
Włoczewski M.-other affiliation
Lewandowska-Szumieł M.-other affiliation
2.Michalska M., Buchberger D.A., Jasiński J.B., Thapa A.K., Jain A., Surface modification of nanocrystalline LiMn2O4 using graphene oxide flakes, Materials, ISSN: 1996-1944, DOI: 10.3390/ma14154134, Vol.14, No.15, pp.4134-1-13, 2021
Abstract:

In this work, a facile, wet chemical synthesis was utilized to achieve a series of lithium manganese oxide (LiMn2O4, (LMO) with 1–5%wt. graphene oxide (GO) composites. The average crystallite sizes estimated by the Rietveld method of LMO/GO nanocomposites were in the range of 18–27 nm. The electrochemical performance was studied using CR2013 coin-type cell batteries prepared from pristine LMO material and LMO modified with 5%wt. GO. Synthesized materials were tested as positive electrodes for Li-ion batteries in the voltage range between 3.0 and 4.3 V at room temperature. The specific discharge capacity after 100 cycles for LMO and LMO/5%wt. GO were 84 and 83 mAh g^−1, respectively. The LMO material modified with 5%wt. of graphene oxide flakes retained more than 91% of its initial specific capacity, as compared with the 86% of pristine LMO material.

Keywords:

lithium manganese oxide, LiMn2O4, graphene oxide, cathode material, lithium ion battery

Affiliations:
Michalska M.-Łukasiewicz Research Network‒Institute of Electronic Materials Technology (PL)
Buchberger D.A.-University of Warsaw (PL)
Jasiński J.B.-other affiliation
Thapa A.K.-other affiliation
Jain A.-IPPT PAN