Interfaces Based on Laser-Structured Arrays of Carbon Nanotubes with Albumin for Electrical Stimulation of Heart Cell Growth

Successful formation of electronic interfaces between living cells and electronic components requires both good cell viability and performance level. This paper presents a technology for the formation of nanostructured arrays of multi-walled carbon nanotubes (MWCNT) in biopolymer (albumin) layer for...

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Autores principales: Gerasimenko, Alexander Yu., Kitsyuk, Evgeny, Kurilova, Uliana E., Suetina, Irina A., Russu, Leonid, Mezentseva, Marina V., Markov, Aleksandr, Narovlyansky, Alexander N., Kravchenko, Sergei, Selishchev, Sergey V., Glukhova, Olga E.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2022
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9102927/
https://www.ncbi.nlm.nih.gov/pubmed/35567036
http://dx.doi.org/10.3390/polym14091866
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author Gerasimenko, Alexander Yu.
Kitsyuk, Evgeny
Kurilova, Uliana E.
Suetina, Irina A.
Russu, Leonid
Mezentseva, Marina V.
Markov, Aleksandr
Narovlyansky, Alexander N.
Kravchenko, Sergei
Selishchev, Sergey V.
Glukhova, Olga E.
author_facet Gerasimenko, Alexander Yu.
Kitsyuk, Evgeny
Kurilova, Uliana E.
Suetina, Irina A.
Russu, Leonid
Mezentseva, Marina V.
Markov, Aleksandr
Narovlyansky, Alexander N.
Kravchenko, Sergei
Selishchev, Sergey V.
Glukhova, Olga E.
author_sort Gerasimenko, Alexander Yu.
collection PubMed
description Successful formation of electronic interfaces between living cells and electronic components requires both good cell viability and performance level. This paper presents a technology for the formation of nanostructured arrays of multi-walled carbon nanotubes (MWCNT) in biopolymer (albumin) layer for higher biocompatibility. The layer of liquid albumin dispersion was sprayed on synthesized MWCNT arrays by deposition system. These nanostructures were engineered using the nanosecond pulsed laser radiation mapping in the near-IR spectral range (λ = 1064 nm). It was determined that the energy density of 0.015 J/cm(2) provided a sufficient structuring of MWCNT. The structuring effect occurred during the formation of C–C bonds simultaneously with the formation of a cellular structure of nanotubes in the albumin matrix. It led to a decrease in the nanotube defectiveness, which was observed during the Raman spectroscopy. In addition, laser structuring led to a more than twofold increase in the electrical conductivity of MWCNT arrays with albumin (215.8 ± 10 S/m). Successful electric stimulation of cells on the interfaces with the system based on a culture plate was performed, resulting in the enhanced cell proliferation. Overall, the MWCNT laser-structured arrays with biopolymers might be a promising material for extended biomedical applications.
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spelling pubmed-91029272022-05-14 Interfaces Based on Laser-Structured Arrays of Carbon Nanotubes with Albumin for Electrical Stimulation of Heart Cell Growth Gerasimenko, Alexander Yu. Kitsyuk, Evgeny Kurilova, Uliana E. Suetina, Irina A. Russu, Leonid Mezentseva, Marina V. Markov, Aleksandr Narovlyansky, Alexander N. Kravchenko, Sergei Selishchev, Sergey V. Glukhova, Olga E. Polymers (Basel) Article Successful formation of electronic interfaces between living cells and electronic components requires both good cell viability and performance level. This paper presents a technology for the formation of nanostructured arrays of multi-walled carbon nanotubes (MWCNT) in biopolymer (albumin) layer for higher biocompatibility. The layer of liquid albumin dispersion was sprayed on synthesized MWCNT arrays by deposition system. These nanostructures were engineered using the nanosecond pulsed laser radiation mapping in the near-IR spectral range (λ = 1064 nm). It was determined that the energy density of 0.015 J/cm(2) provided a sufficient structuring of MWCNT. The structuring effect occurred during the formation of C–C bonds simultaneously with the formation of a cellular structure of nanotubes in the albumin matrix. It led to a decrease in the nanotube defectiveness, which was observed during the Raman spectroscopy. In addition, laser structuring led to a more than twofold increase in the electrical conductivity of MWCNT arrays with albumin (215.8 ± 10 S/m). Successful electric stimulation of cells on the interfaces with the system based on a culture plate was performed, resulting in the enhanced cell proliferation. Overall, the MWCNT laser-structured arrays with biopolymers might be a promising material for extended biomedical applications. MDPI 2022-05-02 /pmc/articles/PMC9102927/ /pubmed/35567036 http://dx.doi.org/10.3390/polym14091866 Text en © 2022 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Gerasimenko, Alexander Yu.
Kitsyuk, Evgeny
Kurilova, Uliana E.
Suetina, Irina A.
Russu, Leonid
Mezentseva, Marina V.
Markov, Aleksandr
Narovlyansky, Alexander N.
Kravchenko, Sergei
Selishchev, Sergey V.
Glukhova, Olga E.
Interfaces Based on Laser-Structured Arrays of Carbon Nanotubes with Albumin for Electrical Stimulation of Heart Cell Growth
title Interfaces Based on Laser-Structured Arrays of Carbon Nanotubes with Albumin for Electrical Stimulation of Heart Cell Growth
title_full Interfaces Based on Laser-Structured Arrays of Carbon Nanotubes with Albumin for Electrical Stimulation of Heart Cell Growth
title_fullStr Interfaces Based on Laser-Structured Arrays of Carbon Nanotubes with Albumin for Electrical Stimulation of Heart Cell Growth
title_full_unstemmed Interfaces Based on Laser-Structured Arrays of Carbon Nanotubes with Albumin for Electrical Stimulation of Heart Cell Growth
title_short Interfaces Based on Laser-Structured Arrays of Carbon Nanotubes with Albumin for Electrical Stimulation of Heart Cell Growth
title_sort interfaces based on laser-structured arrays of carbon nanotubes with albumin for electrical stimulation of heart cell growth
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9102927/
https://www.ncbi.nlm.nih.gov/pubmed/35567036
http://dx.doi.org/10.3390/polym14091866
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