Olivier Monfort, doc. Mgr., PhD.

Design of innovative hybrid biochar prepared from marine algae and magnetite: Insights into adsorption performance and mechanism(2024) Chemical Engineering Research and Design, 201, pp. 218-227.

Kadimpati, K.K., Gnida, A., Turek-Szytow, J., Hellal, M.S., Gregor, M., Matula, G., Pawlyta, M., Monfort, O.

Exploration of bismuth-based materials for photocatalytic decomposition of N2O(2024) Energy Advances, 3 (8), pp. 1956-1964.

Atri, S., Uma, S., Nagarajan, R., Gregor, M., Roch, T., Filip Edelmannova, M., Reli, M., Koci, K., Motola, M., Monfort, O.

Exploring next-generation X(NO3)Y (X = Na+, K+, Sr2+, Ag+; Y=1, 2) electrolytes for enhanced TiO2 nanotube hydrogen generation, (2024) International Journal of Hydrogen Energy

Berezenko V., Hanif M.B., Sihor M., Zeng Y., Edelmannová M.F., Reli M., Iftikhar H., Khan M.Z., Plecenik T., Gregor M., Roch T., Monfort O., Koci K., Motola M.

DOI: 10.1016/j.ijhydene.2024.02.295

Fe3O4-decorated MXene for the effective removal of 133Ba and 137Cs: synthesis, characterization, and optimization via response surface methodology (RSM)(2024) Inorganic Chemistry Frontiers, .

Atri, S., Kusumkar, V.V., İnan, S., Gregor, M., Roch, T., Caplovicova, M., Galambos, M., Viglasova, E., Plesch, G., Motola, M., Monfort, O.

Unravelling the activation mechanism of oxidants using copper ferrite nanopowder and its application in the treatment of real waters contaminated by phenolic compounds(2024) Chemical Engineering Journal, 481, art. no. 148623, .

Cai, M., Gowrisankaran, S., Gregor, M., Makarov, H., Roch, T., Li, J., Wu, F., Mailhot, G., Brigante, M., Monfort, O.

Application of MXene for remediation of low-level radioactive aqueous solutions contaminated with 133Ba and 137Cs(2023) Chemical Communications, 59 (80), pp. 12007-12010.

Kusumkar, V.V., Atri, S., İnan, S., Gregor, M., Roch, T., Makarov, H., Caplovicova, M., Galambos, M., Viglasova, E., Plesch, G., Monfort, O.

New insights into the mechanism of coupled photocatalysis and Fenton-based processes using Fe surface-modified TiO2 nanotube layers: The case study of caffeine degradation. Catalysis Today, (2023) 114027.

Gowrisankaran, S., Thirunavukkarasu, G. K., Makarov, H., Roch, T., Plesch, G., Motola, M., Mailhot, G., Brigante, M., & Monfort, O.

Anodization of large area Ti: a versatile material for caffeine photodegradation and hydrogen production, (2022) Catalysis Science and Technology, 12 (16), pp. 5045 – 5052

Sihor M., Hanif M.B., Thirunavukkarasu G.K., Liapun V., Edelmannova M.F., Roch T., Satrapinskyy L., Plecenik T., Rauf S., Hensel K., Monfort O., Motola M.

DOI: 10.1039/d2cy00593j

Contribution of photocatalytic and Fenton-based processes in nanotwin structured anodic TiO2 nanotube layers modified by Ce and V(2022) Dalton Transactions, 51 (28), pp. 10763-10772.

Thirunavukkarasu, G.K., Gowrisankaran, S., Caplovicova, M., Satrapinskyy, L., Gregor, M., Lavrikova, A., Gregus, J., Halko, R., Plesch, G., Motola, M., Monfort, O.

Fluoride-free synthesis of anodic TiO2 nanotube layers: a promising environmentally friendly method for efficient photocatalysts, (2022) Nanoscale, 14 (32), pp. 11703 – 11709

Hanif M.B., Thirunavukkarasu G.K., Liapun V., Makarov H., Gregor M., Roch T., Plecenik T., Hensel K., Sihor M., Monfort O., Motola M.

DOI: 10.1039/d2nr03379h

Ce ion surface-modified TiO2aerogel powders: a comprehensive study of their excellent photocatalytic efficiency in organic pollutant removal(2021) New Journal of Chemistry, 45 (9), pp. 4174-4184.

Thirunavukkarasu, G.K., Monfort, O., Motola, M., Motlochová, M., Gregor, M., Roch, T., Čaplovicová, M., Lavrikova, A.Y., Hensel, K., Brezová, V., Jerigová, M., Šubrt, J., Plesch, G.

Fe-Modified TiO2 Nanotube Layer as a Photochemically Versatile Material for the Degradation of Organic Pollutants in Water (2022), 19 (1), art. no. 46

Gowrisankaran S., Thrinavukkarasu G.K., Hanif M.B., Liapun V., Roch T., Satrapinskyy L., Plesch G., Motola M., Monfort O.

DOI: 10.3390/ECP2022-12669

Preparation and photocatalytic activity of TiO2 nanotube arrays prepared on transparent spinel substrate, (2021) Ceramics International, 47 (9), pp. 12970 – 12980,

Petrisková P., Monfort O., Satrapinskyy L., Dobročka E., Plecenik T., Plesch G., Papšík R., Bermejo R., Lenčéš Z.

DOI: 10.1016/j.ceramint.2021.01.160