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W3150380857 abstract "Scaffolds play a key role in tissue engineering applications. In the case of bone tissue engineering, scaffolds are expected to provide both sufficient mechanical properties to withstand the physiological loads, and appropriate bioactivity to stimulate cell growth. In order to further enhance cell–cell signaling and cell–material interaction, electro-active scaffolds have been developed based on the use of electrically conductive biomaterials or blending electrically conductive fillers to non-conductive biomaterials. Graphene has been widely used as functioning filler for the fabrication of electro-active bone tissue engineering scaffolds, due to its high electrical conductivity and potential to enhance both mechanical and biological properties. Nitrogen-doped graphene, a unique form of graphene-derived nanomaterials, presents significantly higher electrical conductivity than pristine graphene, and better surface hydrophilicity while maintaining a similar mechanical property. This paper investigates the synthesis and use of high-performance nitrogen-doped graphene as a functional filler of poly(ɛ-caprolactone) (PCL) scaffolds enabling to develop the next generation of electro-active scaffolds. Compared to PCL scaffolds and PCL/graphene scaffolds, these novel scaffolds present improved in vitro biological performance." @default.
W3150380857 created "2021-04-13" @default.
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W3150380857 date "2021-04-06" @default.
W3150380857 modified "2023-10-12" @default.
W3150380857 title "Investigations of Graphene and Nitrogen-Doped Graphene Enhanced Polycaprolactone 3D Scaffolds for Bone Tissue Engineering" @default.
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W3150380857 cites W1963741369 @default.
W3150380857 cites W1975135314 @default.
W3150380857 cites W1980751943 @default.
W3150380857 cites W1984197769 @default.
W3150380857 cites W1999579326 @default.
W3150380857 cites W2001973848 @default.
W3150380857 cites W2006104910 @default.
W3150380857 cites W2008827477 @default.
W3150380857 cites W2010278203 @default.
W3150380857 cites W2010945975 @default.
W3150380857 cites W2017581710 @default.
W3150380857 cites W2018652376 @default.
W3150380857 cites W2025946022 @default.
W3150380857 cites W2028157562 @default.
W3150380857 cites W2030795397 @default.
W3150380857 cites W2032126593 @default.
W3150380857 cites W2037050157 @default.
W3150380857 cites W2038726293 @default.
W3150380857 cites W2040110738 @default.
W3150380857 cites W2044508846 @default.
W3150380857 cites W2049306818 @default.
W3150380857 cites W2049466278 @default.
W3150380857 cites W2065914626 @default.
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W3150380857 cites W2156824648 @default.
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W3150380857 cites W2474264742 @default.
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W3150380857 doi "https://doi.org/10.3390/nano11040929" @default.
W3150380857 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/8067503" @default.
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