Your search keyword '"M. Hulman"' showing total 5 results

1. Selective Tumor Hypoxia Targeting Using M75 Antibody Conjugated Photothermally Active MoO x Nanoparticles.

Author

Annušová A, Labudová M, Truchan D, Hegedűšová V, Švajdlenková H, Mičušík M, Kotlár M, Pribusová Slušná L, Hulman M, Salehtash F, Kálosi A, Csáderová L, Švastová E, Šiffalovič P, Jergel M, Pastoreková S, and Majková E

Abstract

Photothermal therapy (PTT) mediated at the nanoscale has a unique advantage over currently used cancer treatments, by being spatially highly specific and minimally invasive. Although PTT combats traditional tumor treatment approaches, its clinical implementation has not yet been successful. The reasons for its disadvantage include an insufficient treatment efficiency or low tumor accumulation. Here, we present a promising new PTT platform combining a recently emerged two-dimensional (2D) inorganic nanomaterial, MoO x , and a tumor hypoxia targeting element, the monoclonal antibody M75. M75 specifically binds to carbonic anhydrase IX (CAIX), a hypoxia marker associated with many solid tumors with a poor prognosis. The as-prepared nanoconjugates showed highly specific binding to cancer cells expressing CAIX while being able to produce significant photothermal yield after irradiation with near-IR wavelengths. Small aminophosphonic acid linkers were recognized to be more effective over the combination of poly(ethylene glycol) chain and biotin-avidin-biotin bridge in constructing a PTT platform with high tumor-binding efficacy. The in vitro cellular uptake of nanoconjugates was visualized by high-resolution fluorescence microscopy and label-free live cell confocal Raman microscopy. The key to effective cancer treatment may be the synergistic employment of active targeting and noninvasive, tumor-selective therapeutic approaches, such as nanoscale-mediated PTT. The use of active targeting can streamline nanoparticle delivery increasing photothermal yield and therapeutic success., Competing Interests: The authors declare no competing financial interest., (© 2023 The Authors. Published by American Chemical Society.)

Published

2023

2. Magnetic Field Alignment and Optical Anisotropy of MoS 2 Nanosheets Dispersed in a Liquid Crystal Polymer.

Author

Gabinet UR, Lee C, Kim NK, Hulman M, Thompson SM, Kagan CR, and Osuji CO

Abstract

Molybdenum disulfide (MoS 2 ) nanosheets exhibit anisotropic optical and electronic properties, stemming from their shape and electronic structure. Unveiling this anisotropy for study and usage in materials and devices requires the ability to control the orientation of dispersed nanosheets, but to date this has proved a challenging proposition. Here, we demonstrate magnetic field driven alignment of MoS 2 nanosheets in a liquid crystal (LC) polymer and unveil the optical properties of the resulting anisotropic assembly. Nanosheet optical anisotropy is observed spectroscopically by Raman and direction-dependent photoluminescence (PL) measurements. Resulting data indicate significantly lower PL emission due to optical excitation with electric field oscillation out of plane, parallel to the MoS 2 c -axis, than that associated with perpendicular excitation, with the dichroic ratio I perp / I par = 3. The approach developed here provides a useful route to elucidate anisotropic optical properties of MoS 2 nanosheets and to utilize such properties in new materials and devices.

Published

2022

3. Nanofriction Properties of Mono- and Double-Layer Ti 3 C 2 T x MXenes.

Author

Kozak A, Hofbauerová M, Halahovets Y, Pribusová-Slušná L, Precner M, Mičušík M, Orovčík L, Hulman M, Stepura A, Omastová M, Šiffalovič P, and Ťapajna M

Abstract

Unique structure and ability to control the surface termination groups of MXenes make these materials extremely promising for solid lubrication applications. Due to the challenging delamination process, the tribological properties of two-dimensional MXenes particles have been mostly investigated as additive components in the solvents working in the macrosystem, while the understanding of the nanotribological properties of mono- and few-layer MXenes is still limited. Here, we investigate the nanotribological properties of mono- and double-layer Ti 3 C 2 T x MXenes deposited by the Langmuir-Schaefer technique on SiO 2 /Si substrates. The friction of all of the samples demonstrated superior lubrication properties with respect to SiO 2 substrate, while the friction force of the monolayers was found to be slightly higher compared to double- and three-layer flakes, which demonstrated similar friction. The coefficient of friction was estimated to be 0.087 ± 0.002 and 0.082 ± 0.003 for mono- and double-layer flakes, respectively. The viscous regime was suggested as the dominant friction mechanism at high scanning velocities, while the meniscus forces affected by contamination of the MXenes surface were proposed to control the friction at low sliding velocities.

Published

2022

4. Optical Characterization of Few-Layer PtSe 2 Nanosheet Films.

Author

Pribusová Slušná L, Vojteková T, Hrdá J, Pálková H, Siffalovic P, Sojková M, Végsö K, Hutár P, Dobročka E, Varga M, and Hulman M

Abstract

Thin films of transition-metal dichalcogenides are potential materials for optoelectronic applications. However, the application of these materials in practice requires knowledge of their fundamental optical properties. Many existing methods determine optical constants using predefined models. Here, a different approach was used. We determine the sheet conductance and absorption coefficient of few-layer PtSe 2 in the infrared and UV-vis ranges without recourse to any particular model for the optical constants. PtSe 2 samples with a thickness of about 3-4 layers were prepared by selenization of 0.5 nm thick platinum films on sapphire substrates at different temperatures. Differential reflectance was extracted from transmittance and reflectance measurements from the front and back of the sample. The film thickness, limited to a few atomic layers, allowed a thin-film approximation to calculate the optical conductance and absorption coefficient. The former has a very different energy dependence in the infrared, near-infrared, and visible ranges. The absorption coefficient exhibits a strong power-law dependence on energy with an exponent larger than three in the mid-infrared and near-infrared regions. We have not observed any evidence for a band gap in PtSe 2 thin layers down to an energy of 0.4 eV from our optical measurements., Competing Interests: The authors declare no competing financial interest., (© 2021 The Authors. Published by American Chemical Society.)

Published

2021

5. Effects of charge impurities and laser energy on Raman spectra of graphene.

Author

Hulman M, Haluska M, Scalia G, Obergfell D, and Roth S

Abstract

The position and width of the Raman G-line was analyzed for unintentionally doped single-layered graphene samples. Results indicate a significant heating of the monolayer by the laser beam. Moreover, a weak additional component was resolved in the G-band. The position of the line is independent of the level of doping of the sample. We conclude that this new component is due to the phonons coupled to the intraband electronic transitions.

Published

2008