Vaněčková, E., Bouša, M., Novákový-Lachmanová, Š., Rathouský, J., Gál, M., Sebechlebská, T., & Kolivoška, V. (2020). 3D printed polylactic acid/carbon black electrodes with nearly ideal electrochemical behaviour. Journal of Electroanalytical Chemistry, 857, 113745.

Vaněčková, E., Bouša, M., Vivaldi, F., Gál, M., Rathouský, J., Kolivoška, V., & Sebechlebská, T. (2020). UV/VIS spectroelectrochemistry with 3D printed electrodes. Journal of Electroanalytical Chemistry, 857, 113760.

Escobar, J. G., Vaněčková, E., Lachmanová, Š. N., Vivaldi, F., Heyda, J., Kubišta, J., Shestivska, V., Spanel, P., Schwarzova-Peckova, K., Rathousky, J., Sebechlebská, T. & Kolivoška, V. (2020). The development of a fully integrated 3D printed electrochemical platform and its application to investigate the chemical reaction between carbon dioxide and hydrazine. Electrochimica acta, 360, 136984.

Kolivoška, V., Šebera, J., Sebechlebská, T., Lindner, M., Gasior, J., Mészáros, G., Mayor, M., Valášek, M. & Hromadová, M. (2019). Probabilistic mapping of single molecule junction configurations as a tool to achieve the desired geometry of asymmetric tripodal molecules. Chemical Communications, 55(23), 3351-3354.

Sebechlebská, T., Šebera, J., Kolivoška, V., Lindner, M., Gasior, J., Mészáros, G., Valášek M., Mayor, M. & Hromadová, M. (2017). Investigation of the geometrical arrangement and single molecule charge transport in self-assembled monolayers of molecular towers based on tetraphenylmethane tripod. Electrochimica Acta, 258, 1191-1200.

Vaněčková, E., Bouša, M., Novákový-Lachmanová, Š., Rathouský, J., Gál, M., Sebechlebská, T., & Kolivoška, V. (2020). 3D printed polylactic acid/carbon black electrodes with nearly ideal electrochemical behaviour. Journal of Electroanalytical Chemistry, 857, 113745.

Vaněčková, E., Bouša, M., Vivaldi, F., Gál, M., Rathouský, J., Kolivoška, V., & Sebechlebská, T. (2020). UV/VIS spectroelectrochemistry with 3D printed electrodes. Journal of Electroanalytical Chemistry, 857, 113760.

Escobar, J. G., Vaněčková, E., Lachmanová, Š. N., Vivaldi, F., Heyda, J., Kubišta, J., Shestivska, V., Spanel, P., Schwarzova-Peckova, K., Rathousky, J., Sebechlebská, T. & Kolivoška, V. (2020). The development of a fully integrated 3D printed electrochemical platform and its application to investigate the chemical reaction between carbon dioxide and hydrazine. Electrochimica acta, 360, 136984.

Vaněčková, E., Bouša, M., Shestivska, V., Kubišta, J., Moreno‐García, P., Broekmann, P., Rahaman, M., Zlamal, M., Heyda, J. Bernauer, M., Sebechlebska, T. & Kolivoška, V. (2021). Electrochemical reduction of carbon dioxide on 3D printed electrodes. ChemElectroChem, 8(11), 2137-2149.

Sebechlebska, T., Vaneckova, E., Choińska-Młynarczyk, M. K., Navrátil, T., Poltorak, L., Bonini, A., Vivaldi, F. & Kolivoška, V. (2022). 3D printed platform for impedimetric sensing of liquids and microfluidic channels. Analytical Chemistry, 94(41), 14426-14433.

State the output and the Cardoso, R. M., Kalinke, C., Rocha, R. G., Dos Santos, P. L., Rocha, D. P., Oliveira, P. R., Janegitz, B. C., Bonacin, J. A., Richter, E. M. & Munoz, R. A. (2020). Additive-manufactured (3D-printed) electrochemical sensors: A critical review. Analytica chimica acta, 1118, 73-91.corresponding citation.

Martins, G., Gogola, J. L., Budni, L. H., Janegitz, B. C., Marcolino-Junior, L. H., & Bergamini, M. F. (2021). 3D-printed electrode as a new platform for electrochemical immunosensors for virus detection. Analytica chimica acta, 1147, 30-37.

da Silveira, G. D., Quero, R. F., Bressan, L. P., Bonacin, J. A., de Jesus, D. P., & da Silva, J. A. F. (2021). Ready-to-use 3D-printed electrochemical cell for in situ voltammetry of immobilized microparticles and Raman spectroscopy. Analytica Chimica Acta, 1141, 57-62.

Herrer, L., Ismael, A., Martín, S., Milan, D. C., Serrano, J. L., Nichols, R. J., Lambert, C. & Cea, P. (2019). Single molecule vs. large area design of molecular electronic devices incorporating an efficient 2-aminepyridine double anchoring group. Nanoscale, 11(34), 15871-15880.

Herrer, I. L., Ismael, A. K., Milan, D. C., Vezzoli, A., Martín, S., Gonzalez-Orive, A., Grace, I., Lambert, C., Serrano, J. L., Nichols, R. J. & Cea, P. (2018). Unconventional single-molecule conductance behavior for a new heterocyclic anchoring group: pyrazolyl. The journal of physical chemistry letters, 9(18), 5364-5372.

Project APVV -22-0150 entitled "Photofunctional hybrid materials of organic luminophores and

nanoparticles of layered silicates". The project is interdisciplinary in nature with the aim of

preparing photofunctional materials from the synthesis of luminophores to the final material

and its characterization and applications. Several teams from the faculty and one workplace at

the Slovak Academy of Sciences participate in the project. Juraj Bujdák is the project leader.

The project runs from July 2023 to June 2027.

The VEGA 1/0484/24 project entitled "Adsorption-induced photoactivity and chemical

stabilization of luminophores in hybrid systems" is focused on the preparation of photoactive

hybrid materials based on silicates and selected groups of organic dyes. The goal of the

project is to optimize the properties of adsorbed luminophores, especially the emission and

photosensitizing properties. Juraj Bujdák is the project leader. The project will take place in the

years 2024-2027.

Project APVV-18-0075: Polymer surfaces modified with layered nanoparticles and photoactive dyes. Time frame: 2019-2023. T. Sebechlebská, member of the research team. The project is focused on the modification of polymer surfaces to achieve some properties and functionality, such as especially photophysical and photochemical properties, light absorption, photoluminescence, photosensitization and disinfection properties. The achievement of the project objectives is to be realized by means of functionalized layered particles, which should form a nanocomposite system on the surface of the polymer. Already the first results indicate interesting properties of many prepared materials.

VEGA project: 2/0019/19. 2019-2022: Effects of natural and synthetic compounds during oxidative damage of biomacromolecules. Pro- and antioxidant mechanisms, T. Sebechlebská, member of the research team. The project was created in cooperation with the Slovak Academy of Sciences and Comenius University and is focused on the study of oxidative damage of biomacromolecules, particularly hyaluronic acid, and research into the mechanisms of action of various substances in oxidative stress. Already in the middle of the project, significant results concerning the action of copper ions were obtained.

Project KEGA: 014UK-4/2018. 2018-2021: Lab courses and post-millennial students: educationally smart technologies from pre-labs to lab-reports. T. Sebechlebská, member of the research team. The project made important innovations to the concept of teaching laboratory practical courses, suggesting enhancement of all stages of work with modern and pedagogically smart technologies. Pre-lab preparation of students for experiments is proposed in the form of interactive materials with numerous quizzes, videos and data simulation. Processing of data after an experiment, preparing the lab-report, but even its evaluation by teachers should proceed in the electronic format.