Viraj P. Nirwan scite author profile

Viraj P. Nirwan

2Publications

64Citation Statements Received

158Citation Statements Given

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158

Affiliations

Rhine-Waal University of Applied Sciences, Aix-Marseille University, French National Centre for Scientific Research

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Toward multifunctional hybrid platforms for tissue engineering based on chitosan(PEO) nanofibers functionalized by bare laser-synthesized Au and Si nanoparticles

et al. 2017

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International audienceExhibiting a variety of unique optical, structural and physicochemical properties, laser-synthesized nanomaterials have become increasingly popular during recent years in a variety of biomedical, catalytic, photovoltaic and other applications. Here, we explore the use of bare laser-synthesized gold and silicon nanoparticles (AuNPs and SiNPs) as additives to functionalize electrospun chitosan(PEO) nanofibers and then assess the potential of such hybrid structures as multifunctional platforms for tissue engineering. We demonstrate that bare AuNPs and SiNPs can be easily grafted on the surface of the chitosan(PEO) nanofibers without any interference, via electrostatic interaction between a strong negative surface charge of NPs and the polycationic surface of the fibers. We also show that the nanofibers functionalized with nanoparticles can affect the morphology and physico-chemical characteristics of the resulting nanostructures. As an example, the functionalization of nanofibers by SiNPs led to quite different thicknesses of fibers (386 AE 80 nm and 632 AE 170 nm), suggesting a potential improvement of fibre surface reactivity. Finally, biological toxicity of the nanofibers was assessed through preliminary viability tests conducted on HaCaT cells. After 24 h of incubation time, no adverse effects were observed confirming satisfactory biocompatibilty of the hybrid nanofiber structures. The proposed concept promises exciting perspectives in the development of innovative multifunctional scaffolds structures gathering new properties for tissue engineering

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Recent Advances in Laser-Ablative Synthesis of Bare Au and Si Nanoparticles and Assessment of Their Prospects for Tissue Engineering Applications

Al-Kattan

Nirwan

Popov

et al. 2018

IJMS

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Driven by surface cleanness and unique physical, optical and chemical properties, bare (ligand-free) laser-synthesized nanoparticles (NPs) are now in the focus of interest as promising materials for the development of advanced biomedical platforms related to biosensing, bioimaging and therapeutic drug delivery. We recently achieved significant progress in the synthesis of bare gold (Au) and silicon (Si) NPs and their testing in biomedical tasks, including cancer imaging and therapy, biofuel cells, etc. We also showed that these nanomaterials can be excellent candidates for tissue engineering applications. This review is aimed at the description of our recent progress in laser synthesis of bare Si and Au NPs and their testing as functional modules (additives) in innovative scaffold platforms intended for tissue engineering tasks.

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Viraj P. Nirwan

Toward multifunctional hybrid platforms for tissue engineering based on chitosan(PEO) nanofibers functionalized by bare laser-synthesized Au and Si nanoparticles

Recent Advances in Laser-Ablative Synthesis of Bare Au and Si Nanoparticles and Assessment of Their Prospects for Tissue Engineering Applications

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