Hianik, T., Passechnik, V.I. 1995 "Bilayer lipid membranes: Structure and mechanical properties", Kluwer Academic Publishers, Ister Science.

Hianik, T., Ostatna, V., Zajacova, Z., Stoikova, E., Evtugyn, G. 2005, "Detection of aptamer–protein interactions using QCM and electrochemical indicator methods", Bioorganic & Medicinal Chemistry Letters vol. 15, no. 2, pp. 291–295.

Hianik, T., Ostatná, V., Sonlajtnerova, M., Grman, I. 2007, "Influence of ionic strength, pH and aptamer configuration for binding affinity to thrombin", Bioelectrochemistry vol. 70, no 1., pp. 123-133.

Hianik, T., Wang, J. 2009, "Electrochemical aptasensors – Recent achievements and perspectives" vol. 21, no. 11, pp.1223-1235 .

Patil, S.S., Kagne, P.R., Narwade, V.N., Tsai, M-L., Hianik, T., Shirsat, M.D., 2025, "Dual-Functional One-Pot Synthesized Au−Y-TMA MOF Hybrid: an Electrode Modifier for High-Performance Symmetric Supercapacitor and Kanamycin Aptasensor for Spiked Milk Samples", Analytical Chemistry, vol. 97, pp. 19654–19669

Melikishvili, S., Dizon, M., Hianik, T. 2021, "Application of high-resolution ultrasonic spectroscopy for real-time monitoring of trypsin activity in β-casein solution", Food Chemistry, 337, article No. 127759.

Khune, A.S., Narwade, V.N., Dole, B.N., Ingle, N.N., Tsai,·M-L., Hianik,·T., Shirsat, M.D., 2024, "Reduced graphene oxide (rGO) and 5, 10, 15, 20‑tetra‑p‑tolyl‑21H, 23H‑porphine (TPTP) composite: highly reproducible and repeatable chemiresistive SO2 sensor", Applied Physics A, 130, 60.

Spagnolo, S., Sontakke, K., Dubbert, L., Urban, M., , Lednicky, T., Csaki, A., Wondraczek, K., Fritzsche, W., Hianik, T. 2025, "Application of the combined QCM-D/LSPR aptasensor for penicillin G detection", Biosensors 15, 652.

Patil, S.S., Kagne, P.R., Narwade, V.N., Tsai, M-L., Hianik, T., Shirsat, M.D., 2025, "Dual-Functional One-Pot Synthesized Au−Y-TMA MOF Hybrid: an Electrode Modifier for High-Performance Symmetric Supercapacitor and Kanamycin Aptasensor for Spiked Milk Samples", Analytical Chemistry, vol. 97, pp. 19654–19669

Hianik, T. 2021, "Advances in electrochemical and acoustic aptamer-based biosensors and immunosensors in diagnostics of leukemia" Biosensors vol. 11, article No. 177

Práca: Nikoleli, G-P., Nikolelis, D.P., Evtugyn, G., Hianik, T. (2016) "Advances in lipid film based biosensors", Trends in Analytical Chemistry vol. 79, pp. 210–221 . Ohlas: Abraham, S., Heckenthaler, T., Morgenstern, Y., Kaufman, Y. Effect of temperature on the structure, electrical resistivity, and charge capacitance of supported lipid bilayers (2019) Langmuir, vol. 35, no. 26, pp. 8709-8715 - SCI; SCOPUS.

Práca: Kuzin, Yu., Kappo, D., Porfireva, A., Shurpik, D., Stoikov, I., Evtugyn, G., Hianik, T. 2018, "Electrochemical DNA sensor based on carbon black—poly(Neutral Red) composite for detection of oxidative DNA damage", Sensors, vol. 18, article no. 3489. Ohlas: Arduini, F., Cinti, S., Mazzaracchio, V., Scognamiglio, V., Amine, A., Moscone, D. Carbon black as an outstanding and affordable nanomaterial for electrochemical (bio)sensor design (2020) Biosensors and Bioelectronics, vol. 156, art. no. 112033 - SCI; SCOPUS.

Práca: Bábelová, L., Eliášová Sohová, M., Poturnayová, A., Buríková, M., Bizík, J., Hianik, T. 2018, "Label-free electrochemical aptasensor for Jurkat cells detection as a potential diagnostic tool for leukemia", Electroanalysis, vol. 30, no. 7, pp.1487-1495. Ohlas: Lu, Q., Qin, J.-A., Fu, Y.-W., Luo, J.-Y., Lu, J.-H., Logrieco, A.F., Yang, M.-H. Modified mycotoxins in foodstuffs, animal feed, and herbal medicine: A systematic review on global occurrence, transformation mechanism and analysis methods (2020) TrAC - Trends in Analytical Chemistry, vol. 133, art. no. 116088 - SCOPUS.

Práca: Poturnayová, A., Buríková, M., Bízik, J., Hianik, T. 2019, "DNA aptamers in the detection of leukemia cells by the thickness shear mode acoustics method", ChemPhysChem, vol. 20, pp.545-554.. Ohlas: Nur, Y., Gaffar, S., Hartati, Y.W., Subroto, T. Applications of electrochemical biosensor of aptamers-based (APTASENSOR) for the detection of leukemia biomarker (2021) Sensing and Bio-Sensing Research, vol. 32, art. no. 100416 - SCI; SCOPUS.

Práca: Beltrán-Gastélum, M., Esteban-Fernández de Ávila, B.,Gong, H., Venugopalan, P.L., Hianik, T., Wang, J., Subjakova, V. 2019, "Rapid detection of AIB1 in breast cancer cells based on aptamer-functionalized nanomotors", ChemPhysChem, vol. 20, no. 23, pp. 3177-3180. Ohlas: Karaca, G.Y., Kuralay, F., Uygun, E., Ozaltin, K., Demirbuken, S.E., Garipcan, B., Oksuz, L., Oksuz, A.U. Gold-Nickel Nanowires as Nanomotors for Cancer Marker Biodetection and Chemotherapeutic Drug

Delivery (2021) ACS Applied Nano Materials, vol. 4, no. 4, pp. 3377-3388 - SCI; SCOPUS.

Novel label-free sensing approach for evaluation of binding of mycotoxins and antibiotics to DNA aptamers immobilized at surfaces. DAAD PPP, Principal investigator, 2023-2024

Study of the mechanisms of interaction of aptamer modified nanomotors with biomembranes (principal investigator) [VEGA - 1/0419/20].

Štúdium afinitných interakcií na povrchoch pomocou analýzy viskoelastických vlastností organických vrstiev/Study of the afinity interactions at surfaces by means of the analysis of viscoelastic properties of organic layers (principal investigator) [VEGA - 1/0445/23].

Innovative technology for the detection of enzyme activity in milk (Project coordinator) [H2020-MSCA-RISE-2015, project no. 690898]

Innovative technology for milk safety (Principal Investigator) [H2020-MSCA-RISE-2020, project No. 101007299]