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Abstrakty
Silicone-based materials are of great interest in medicine and cosmetic applications because of their biocompatibility and elasticity. Recently, there has been a significant focus on the development of functional materials that integrate multiple desirable characteristics. Elastic composites reinforced with magnetic filler are active in a magnetic field. These materials can be an interesting alternative to the currently used materials, after appropriate modification of the NdFeB powder. From the point of view of the use of materials in biomedical engineering, they require a lot of research and analysis to determine whether they are useful and will not cause potentially negative effects on a living organism. The aim of the work was to verify the influence of the powder silanization method on the thermal and physicochemical properties of silicone-based composites reinforced with NdFeB powder. The appropriate selection of the silanization parameters used in the process allows control of the properties of the composite. The powder surface silanization execution affects the physicochemical and thermal stability of the prepared composites. It has been established that, depending on the method of silanization, the composite properties were changed. The obtained experimental results may lead to further research on the functionalization of elastic composites reinforced with magnetic powder.
Czasopismo
Rocznik
Tom
Strony
2--8
Opis fizyczny
Bibliogr. 28 poz., tab., wykr., zdj.
Twórcy
autor
- Department of Biomaterials and Medical Devices, Institute of Biomedical Engineering, Faculty of Mechanical Engineering, Bialystok University of Technology, Wiejska 45C, 15 351 Bialystok, Poland
autor
- Department of Biomaterials and Medical Devices, Institute of Biomedical Engineering, Faculty of Mechanical Engineering, Bialystok University of Technology, Wiejska 45C, 15 351 Bialystok, Poland
autor
- Department of Biomaterials and Medical Devices, Institute of Biomedical Engineering, Faculty of Mechanical Engineering, Bialystok University of Technology, Wiejska 45C, 15 351 Bialystok, Poland
Bibliografia
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- [2] D. Fallahi, H. Mirzadeh, M.T. Khorasani: Physical, mechanical, and biocompatibility evaluation of three different types of silicone rubber. J. Appl. Polym. Sci. 88 (2003) 2522-2529.
- [3] J. Mystkowska, A. Powojska, D. Łysik, J. Niewęgłowska, G.S.C. Bermúdez, A. Mystkowski, D. Makarov: The Effect of Physiological Incubation on the Properties of Elastic Magnetic Composites for Soft Biomedical Sensors. Sensors 21 (2021) 7122.
- [4] V. Iacovacci, G. Lucarini, C. Innocenti, N. Comisso, P. Dario, et al.: Polydimethylsiloxane films doped with NdFeB powder: magnetic characterization and potential applications in biomedical engineering and microrobotics. Biomed. Microdevices. 17 (2015) 112.
- [5] Z. Wu, Q. Wang, J. Huang, Y. Yue, D. Chen, Y. Shi, B. Su: The soft NdFeB/Ecoflex composites for soft robot with a considerable magnetostimulated shrinkability, Compos. Sci. Technol. 217 (2022) 109129.
- [6] V.E. Donohue, F. McDonald, R. Evans: In vitro cytotoxicity testing of neodymium-iron-boron magnets. J. Appl. Biomater. 6 (1995) 69-74.
- [7] A. Powojska, J. Niewęgłowska, S. Suska, A. Cavadas, J. Mystkowska: Chemical stability assessment of soft magnetic composites for biomedical applications. Engineering of Biomaterials 164 (2022) 2-8.
- [8] X. Zhang, Z. Wang, T. Li, S. Zhu, D. Yu, W. Yan, Y. Luo: Effect of silane coupling agents on flowability and compressibility of compound for bonded NdFeB magnet. J. Rare Earths. 40 (2022) 772-777.
- [9] S.-B. Yeh, C.-S. Chen, W.-Y. Chen, C.-J. Huang: Modification of Silicone Elastomer with Zwitterionic Silane for Durable Antifouling Properties. Langmuir 30 (2014) 11386-11393.
- [10] M. Zhu, M.Z. Lerum, W. Chen: How To Prepare Reproducible, Homogeneous, and Hydrolytically Stable Aminosilane-Derived Layers on Silica. Langmuir 28 (2012) 416-423.
- [11] C. Velasco-Santos, A.L. Martinez-Hernandez, V.M. Castano: Silanization of Carbon Nanotubes: Surface Modification and Polymer Nanocomposites, in: S. Yellampalli (Ed.), Carbon Nanotub. - Polym. Nanocomposites, InTech, 2011.
- [12] N. Aissaoui, L. Bergaoui, J. Landoulsi, J.-F. Lambert, S. Boujday: Silane Layers on Silicon Surfaces: Mechanism of Interaction, Stability, and Influence on Protein Adsorption. Langmuir 28 (2012) 656-665.
- [13] S. Villa, P. Riani, F. Locardi, F. Canepa: Functionalization of Fe3O4 NPs by Silanization: Use of Amine (APTES) and Thiol (MPTMS) Silanes and Their Physical Characterization. Materials 9 (2016) 826.
- [14] B. Qiao, T.-J. Wang, H. Gao, Y. Jin: High density silanization of nano-silica particles using γ-aminopropyltriethoxysilane (APTES). Appl. Surf. Sci. 351 (2015) 646-654.
- [15] Z. Liao, J. Yang, M. Hossain, G. Chagnon, L. Jing, X. Yao: On the stress recovery behaviour of Ecoflex silicone rubbers. Int. J. Mech. Sci. 206 (2021) 106624.
- [16] ISO 10993-13:2010 Biological evaluation of medical devices Part 13: Identification and quantification of degradation products from polymeric medical devices.
- [17] ISO 11358-1:2022 Plastics Thermogravimetry (TG) of polymers Part 1: General principles.
- [18] J. López-Cuevas, M.I. Pech-Canul, J.L. Rodríguez-Galicia, J.C. Rendón-Angeles: A Practical Procedure for Measuring Contact Angles in Wettability Studies by the Sessile Drop Method. MRS Adv. 4 (2019) 3143-3152.
- [19] T. Zhao, L. Jiang: Contact angle measurement of natural materials, Colloids Surf. B Biointerfaces. 161 (2018) 324-330.
- [20] W. Moon, J.H. Park, H.-A. Lee, B.-S. Lim, S.H. Chung: Influence of Additive Firing on the Surface Characteristics, Streptococcus mutans Viability and Optical Properties of Zirconia. Materials 14 (2021) 1286.
- [21] D. Sun, H. Shang, H. Jiang: Effective metrology and standard of the surface roughness of micro/nanoscale waveguides with confocal laser scanning microscopy. Opt. Lett. 44 (2019) 747.
- [22] A. Kaidarova, M.A. Khan, S. Amara, N.R. Geraldi, M.A. Karimi, A. Shamim, R.P. Wilson, C.M. Duarte, J. Kosel: Tunable, Flexible Composite Magnets for Marine Monitoring Applications. Adv. Eng. Mater. 20 (2018) 1800229.
- [23] M. Qin, S. Hou, L. Wang, X. Feng, R. Wang, Y. Yang, C. Wang, L. Yu, B. Shao, M. Qiao: Two methods for glass surface modification and their application in protein immobilization. Colloids Surf. B Biointerfaces 60 (2007) 243-249.
- [24] K. Wang, G. Wang, C. Lu: Particle contact angle at the oil-water interface: Effect of surface silanization. Particuology 44 (2019) 218-224.
- [25] M.W. Cowle, G. Webster, A.O. Babatunde, B.N. Bockelmann-Evans, A.J. Weightman: Impact of flow hydrodynamics and pipe material properties on biofilm development within drinking water systems. Environ. Technol. 41 (2020) 3732-3744.
- [26] B.R. Prasad, M.A. Brook, T. Smith, S. Zhao, Y. Chen, H. Sheardown, R. D’souza, Y. Rochev: Controlling cellular activity by manipulating silicone surface roughness, Colloids Surf. B Biointerfaces 78 (2010) 237-242.
- [27] A. Al-Ani, H. Pingle, N.P. Reynolds, P.-Y. Wang, P. Kingshott: Tuning the Density of Poly(ethylene glycol) Chains to Control Mammalian Cell and Bacterial Attachment. Polymers 9 (2017) 343.
- [28] D. Lee, S. Yang: Surface modification of PDMS by atmosphericpressure plasma-enhanced chemical vapor deposition and analysis of long-lasting surface hydrophilicity. Sens. Actuators B Chem. 162 (2012) 425-434.
Uwagi
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f8f641af-5c0e-4e89-a109-1ac34a26eeb3