Raman studies of the interactions of fibrous carbon nanomaterials with albumin

Adsorption or immobilization of proteins on synthetic surfaces is a key issue in the context of the biocompatibility of implant materials, especially those intended for the needs of cardiac surgery but also for the construction of biosensors or nanomaterials used as drug carriers. The subject of res...

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Published inSpectrochimica acta. Part A, Molecular and biomolecular spectroscopy Vol. 196; pp. 262 - 267
Main Authors Wesełucha-Birczyńska, Aleksandra, Morajka, Krzysztof, Stodolak-Zych, Ewa, Długoń, Elżbieta, Dużyja, Maria, Lis, Tomasz, Gubernat, Maciej, Ziąbka, Magdalena, Błażewicz, Marta
Format Journal Article
LanguageEnglish
Published England Elsevier B.V 05.05.2018
Subjects
Carbon nano fibers (CNFs)
Carbon nanomaterials
Human serum albumin (HSA)
Multi-walled carbon nanotubes (MWCNTs)
Pyrolytic carbon C (CVD)
Raman microspectroscopy
Multi-walled carbon nanotubes (MWCNTs)
Raman microspectroscopy
Human serum albumin (HSA)
Pyrolytic carbon C (CVD)
Carbon nano fibers (CNFs)
Carbon nanomaterials
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Abstract Adsorption or immobilization of proteins on synthetic surfaces is a key issue in the context of the biocompatibility of implant materials, especially those intended for the needs of cardiac surgery but also for the construction of biosensors or nanomaterials used as drug carriers. The subject of research was the analysis of Raman spectra of two types of fibrous carbon nanomaterials, of great potential for biomedical applications, incubated with human serum albumin (HSA). The first nanomaterial has been created on the layer of MWCNTs deposited by electrophoretic method (EPD) and then covered by thin film of pyrolytic carbon introduced by chemical vapor deposition process (CVD). The second material was formed from carbonized nanofibers prepared via electrospinning (ESCNFs) of polyacrylonitrile (PAN) precursor and then covered with pyrolytic carbon (CVD). The G-band blue-shift towards the position of about 1600cm−1, observed for both studied surfaces, clearly indicates the albumin (HSA) adhesion to the surface. The G and G' (2D) peak shift was employed to assess the stress build up on the carbon nanomaterials. The surface nano- and micro-topography as well as the method of ordering the carbon nanomaterial has a significant influence on the mode of surface-protein interaction. [Display omitted] •Two fibrous type carbon nanomaterials were studied.•The interaction of human albumin with each kind of nanomaterial has been characterized.•The G and G' (2D) peak shift was employed to evaluate the stress build up on the carbon nanomaterials.
AbstractList Adsorption or immobilization of proteins on synthetic surfaces is a key issue in the context of the biocompatibility of implant materials, especially those intended for the needs of cardiac surgery but also for the construction of biosensors or nanomaterials used as drug carriers. The subject of research was the analysis of Raman spectra of two types of fibrous carbon nanomaterials, of great potential for biomedical applications, incubated with human serum albumin (HSA). The first nanomaterial has been created on the layer of MWCNTs deposited by electrophoretic method (EPD) and then covered by thin film of pyrolytic carbon introduced by chemical vapor deposition process (CVD). The second material was formed from carbonized nanofibers prepared via electrospinning (ESCNFs) of polyacrylonitrile (PAN) precursor and then covered with pyrolytic carbon (CVD). The G-band blue-shift towards the position of about 1600cm−1, observed for both studied surfaces, clearly indicates the albumin (HSA) adhesion to the surface. The G and G' (2D) peak shift was employed to assess the stress build up on the carbon nanomaterials. The surface nano- and micro-topography as well as the method of ordering the carbon nanomaterial has a significant influence on the mode of surface-protein interaction. [Display omitted] •Two fibrous type carbon nanomaterials were studied.•The interaction of human albumin with each kind of nanomaterial has been characterized.•The G and G' (2D) peak shift was employed to evaluate the stress build up on the carbon nanomaterials.
Adsorption or immobilization of proteins on synthetic surfaces is a key issue in the context of the biocompatibility of implant materials, especially those intended for the needs of cardiac surgery but also for the construction of biosensors or nanomaterials used as drug carriers. The subject of research was the analysis of Raman spectra of two types of fibrous carbon nanomaterials, of great potential for biomedical applications, incubated with human serum albumin (HSA). The first nanomaterial has been created on the layer of MWCNTs deposited by electrophoretic method (EPD) and then covered by thin film of pyrolytic carbon introduced by chemical vapor deposition process (CVD). The second material was formed from carbonized nanofibers prepared via electrospinning (ESCNFs) of polyacrylonitrile (PAN) precursor and then covered with pyrolytic carbon (CVD). The G-band blue-shift towards the position of about 1600cm , observed for both studied surfaces, clearly indicates the albumin (HSA) adhesion to the surface. The G and G' (2D) peak shift was employed to assess the stress build up on the carbon nanomaterials. The surface nano- and micro-topography as well as the method of ordering the carbon nanomaterial has a significant influence on the mode of surface-protein interaction.
Author Długoń, Elżbieta
Gubernat, Maciej
Morajka, Krzysztof
Dużyja, Maria
Lis, Tomasz
Stodolak-Zych, Ewa
Błażewicz, Marta
Ziąbka, Magdalena
Wesełucha-Birczyńska, Aleksandra
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Keywords Multi-walled carbon nanotubes (MWCNTs)
Raman microspectroscopy
Human serum albumin (HSA)
Pyrolytic carbon C (CVD)
Carbon nano fibers (CNFs)
Carbon nanomaterials
Language English
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Snippet Adsorption or immobilization of proteins on synthetic surfaces is a key issue in the context of the biocompatibility of implant materials, especially those...
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elsevier
SourceType Index Database
Enrichment Source
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StartPage 262
SubjectTerms Carbon nano fibers (CNFs)
Carbon nanomaterials
Human serum albumin (HSA)
Multi-walled carbon nanotubes (MWCNTs)
Pyrolytic carbon C (CVD)
Raman microspectroscopy
Title Raman studies of the interactions of fibrous carbon nanomaterials with albumin
URI https://dx.doi.org/10.1016/j.saa.2018.02.027
https://www.ncbi.nlm.nih.gov/pubmed/29455077
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