Investigation of physical and biological properties of polypyrrole nanotubes–chitosan nanocomposites

•PPy-NTs:chitosan nanocomposite films have been synthesized by chemical method.•Increase in wettability is observed after glutaraldehyde functionalization.•Glutaraldehyde treated films exhibit enhanced haemocompatibility.•Glutaraldehyde treated films show enhanced urease activity than the pristine o...

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Published in:Carbohydrate polymers 2015-11, Vol.132, p.481-489
Main Authors: Upadhyay, J., Kumar, A., Gupta, K., Mandal, M.
Format: Article
Language:English
Subjects:
Animals
Chitosan - chemistry
Enzymes, Immobilized - chemistry
Enzymes, Immobilized - metabolism
Erythrocytes - cytology
Erythrocytes - drug effects
Haemolysis activity
Hemolysis - drug effects
Hydrophilicity
Kinetics
Nanocomposites - chemistry
Nanocomposites - toxicity
Nanocomposites - ultrastructure
Nanotubes - chemistry
Polymers - chemistry
PPy-NTs:chitosan nanocomposite
Pyrroles - chemistry
Spectroscopy, Fourier Transform Infrared
Urease - chemistry
Urease - metabolism
Urease immobilization
X-Ray Diffraction
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cited_by cdi_FETCH-LOGICAL-c365t-fc8cb421ab437879970dc52ab200b7757167cc1d0e11c5edab1c3cbfda8ce76f3
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container_title Carbohydrate polymers
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creator Upadhyay, J.
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Gupta, K.
Mandal, M.
description •PPy-NTs:chitosan nanocomposite films have been synthesized by chemical method.•Increase in wettability is observed after glutaraldehyde functionalization.•Glutaraldehyde treated films exhibit enhanced haemocompatibility.•Glutaraldehyde treated films show enhanced urease activity than the pristine one. Polypyrrole nanotubes–chitosan (PPy-NTs:chitosan) nanocomposite films have been synthesized with varying concentration of polypyrrole nanotubes (PPy-NTs) and their physical and biological properties have been investigated. Scanning electron microscopy (SEM) micrographs exhibit the increase in surface roughness of the nanocomposite films with increasing concentration of PPy-NTs. Enhancement in hydrophilicity of the nanocomposite films has been observed after surface functionalization with glutaraldehyde which is attributed to increase in surface energy due to the incorporation of polar groups on the films surface. The increasing amount of PPy-NTs in the nanocomposite leads to an increase in haemolysis activity, while the treatment with glutaraldehyde results in the decrease in haemolysis activity giving rise to higher biocompatibility. Urease immobilization in glutaraldehyde treated films exhibits higher enzymatic activity as compared to that of the untreated films, which is attributed to the enhancement in hydrophilicity and biocompatibility of the PPy-NTs:chitosan nanocomposites after functionalization with glutaraldehyde.
doi_str_mv 10.1016/j.carbpol.2015.06.028
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Polypyrrole nanotubes–chitosan (PPy-NTs:chitosan) nanocomposite films have been synthesized with varying concentration of polypyrrole nanotubes (PPy-NTs) and their physical and biological properties have been investigated. Scanning electron microscopy (SEM) micrographs exhibit the increase in surface roughness of the nanocomposite films with increasing concentration of PPy-NTs. Enhancement in hydrophilicity of the nanocomposite films has been observed after surface functionalization with glutaraldehyde which is attributed to increase in surface energy due to the incorporation of polar groups on the films surface. The increasing amount of PPy-NTs in the nanocomposite leads to an increase in haemolysis activity, while the treatment with glutaraldehyde results in the decrease in haemolysis activity giving rise to higher biocompatibility. 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Polypyrrole nanotubes–chitosan (PPy-NTs:chitosan) nanocomposite films have been synthesized with varying concentration of polypyrrole nanotubes (PPy-NTs) and their physical and biological properties have been investigated. Scanning electron microscopy (SEM) micrographs exhibit the increase in surface roughness of the nanocomposite films with increasing concentration of PPy-NTs. Enhancement in hydrophilicity of the nanocomposite films has been observed after surface functionalization with glutaraldehyde which is attributed to increase in surface energy due to the incorporation of polar groups on the films surface. The increasing amount of PPy-NTs in the nanocomposite leads to an increase in haemolysis activity, while the treatment with glutaraldehyde results in the decrease in haemolysis activity giving rise to higher biocompatibility. 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Polypyrrole nanotubes–chitosan (PPy-NTs:chitosan) nanocomposite films have been synthesized with varying concentration of polypyrrole nanotubes (PPy-NTs) and their physical and biological properties have been investigated. Scanning electron microscopy (SEM) micrographs exhibit the increase in surface roughness of the nanocomposite films with increasing concentration of PPy-NTs. Enhancement in hydrophilicity of the nanocomposite films has been observed after surface functionalization with glutaraldehyde which is attributed to increase in surface energy due to the incorporation of polar groups on the films surface. The increasing amount of PPy-NTs in the nanocomposite leads to an increase in haemolysis activity, while the treatment with glutaraldehyde results in the decrease in haemolysis activity giving rise to higher biocompatibility. 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subjects Animals
Chitosan - chemistry
Enzymes, Immobilized - chemistry
Enzymes, Immobilized - metabolism
Erythrocytes - cytology
Erythrocytes - drug effects
Haemolysis activity
Hemolysis - drug effects
Hydrophilicity
Kinetics
Nanocomposites - chemistry
Nanocomposites - toxicity
Nanocomposites - ultrastructure
Nanotubes - chemistry
Polymers - chemistry
PPy-NTs:chitosan nanocomposite
Pyrroles - chemistry
Spectroscopy, Fourier Transform Infrared
Urease - chemistry
Urease - metabolism
Urease immobilization
X-Ray Diffraction
title Investigation of physical and biological properties of polypyrrole nanotubes–chitosan nanocomposites
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