2017
DOI: 10.5812/jssc.67394
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Bio - Conductive Scaffold Based on Agarose - Polyaniline for Tissue Engineering

Abstract: Architecting novel scaffold for tissue engineering has attracted significant attention. Biomimic scaffolds can enhance cellular activity and tissue regeneration. Conductive scaffold exhibited ameliorated regeneration and tissue repair. In this research, conductive hydrogel based on agarose/polyaniline was synthesized to evaluate hydrogel performance as a novel candidate for tissue engineering. Agarose/polyaniline was synthesized using in -situ oxidative polymerization to achieve conductive hydrogel. Fourier Tr… Show more

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Cited by 15 publications
(19 citation statements)
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“…Therefore, it is necessary to characterise the prepared PANI powder using FTIR and XRD to confirm the successful synthesis of PANI in the conductive form. The FTIR spectra of the PANI powder shows several signature peaks of PANI emeraldine salt such as: (i) peaks at 1554 cm −1 and 1477 cm −1 belonging to the stretching vibration of quinoid (Q) and benzenoid (B) rings of PANI respectively, (ii) peak at 1301 cm −1 is correlated with delocalisation of π electrons induced in PANI through protonation, (iii) peak at 1244 cm −1 is attributed to C-N stretch vibration in the polaron structure appearing near the secondary amine structure and also as the ribbon characteristic of the protonated form [27] (Figure 2a). Characteristic of the PANI emeraldine salt is a transmittance that continues to rise above the wavelength of 1600 cm −1 ; this is due to the absorption of the free charge carriers in doped polymers [60].…”
Section: Characterisation Of Polyanilinementioning
confidence: 99%
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“…Therefore, it is necessary to characterise the prepared PANI powder using FTIR and XRD to confirm the successful synthesis of PANI in the conductive form. The FTIR spectra of the PANI powder shows several signature peaks of PANI emeraldine salt such as: (i) peaks at 1554 cm −1 and 1477 cm −1 belonging to the stretching vibration of quinoid (Q) and benzenoid (B) rings of PANI respectively, (ii) peak at 1301 cm −1 is correlated with delocalisation of π electrons induced in PANI through protonation, (iii) peak at 1244 cm −1 is attributed to C-N stretch vibration in the polaron structure appearing near the secondary amine structure and also as the ribbon characteristic of the protonated form [27] (Figure 2a). Characteristic of the PANI emeraldine salt is a transmittance that continues to rise above the wavelength of 1600 cm −1 ; this is due to the absorption of the free charge carriers in doped polymers [60].…”
Section: Characterisation Of Polyanilinementioning
confidence: 99%
“…However, PANI has limitations such as nonbiodegradability and contradictory evidence within the literature regarding the materials biocompatibility. Numerous studies have stated that the material is cytocompatible [25][26][27][28][29][30][31][32] although it may require specific treatments to improve compatibility; however, cytotoxicity and inflammation have also been reported [22,24,33]. Therefore, it is crucial to identify the cytotoxic concentration limit of PANI within a scaffold and procedures to ensure that residual dopants and low molecular weight by-products are not present as these have been suggested to be responsible for the poor biocompatibility [26,33].…”
Section: Introductionmentioning
confidence: 99%
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“…Oligoaniline‐based biomaterial degradation rate can be tuned in comparison with polyaniline. Aniline oligomers can be used to adjust the scaffold properties such as mechanical feature, hydrophilicity, and degradation rate and drug release . Atoufi et al synthesized alginate‐aniline tetramer scaffold, which exhibited the shape‐memory behavior, adjustable swelling, and degradation rate .…”
Section: Introductionmentioning
confidence: 99%