Jit Pal scite author profile

We demonstrate a simple approach to prepare hairy polymer nanorods/nanofibres by exploiting the self-assembly behavior of block copolymers. The hairy nanofibres were prepared from an asymmetric polystyrene-block-poly(4-vinylpyridine) (PS-b-P4VP) block copolymer whose self-assembled morphology consisted of PS cylinders dispersed in P4VP matrix. The dissolution of the block copolymer in a P4VP selective solvent resulted in the isolation of individual PS cylinders wrapped with a shell consisting of covalently bound P4VP chains. The diameter of these hairy nanofibres was $80 nm, whereas the length was in the range of several hundred nanometers. We further show that such hairy nanofibres provide interesting possibilities for doing further chemistry on their surface. This, in principle, allows one to prepare a range of functional hybrid organic/inorganic nanofibres of diameter less than 100 nm using the hairy polymer nanofibres as template. The organic fraction of the nanofibres can then be further removed by thermal treatment to produce pure inorganic nano-objects.

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Macroporous scaffolds of cross-linked Poly(ɛ-caprolactone) via high internal phase emulsion templating

Yadav

Pal

Nandan

et al. 2019

Polymer

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The viscoelastic interaction between dispersed and continuous phase of PCL/HA-PVA oil-in-water emulsion uncovers the theoretical and experimental basis for fiber formation during emulsion electrospinning

Pal

Hakkarainen

et al. 2017

European Polymer Journal

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Control on molecular weight reduction of poly(ε-caprolactone) during melt spinning — A way to produce high strength biodegradable fibers

Pal

Kankariya

Sanwaria

et al. 2013

Materials Science and Engineering: C

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Emulsion templated scaffolds of poly(ε-caprolactone) – a review

et al. 2022

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Jit Pal

Hairy polymer nanofibers via self-assembly of block copolymers

Macroporous scaffolds of cross-linked Poly(ɛ-caprolactone) via high internal phase emulsion templating

The viscoelastic interaction between dispersed and continuous phase of PCL/HA-PVA oil-in-water emulsion uncovers the theoretical and experimental basis for fiber formation during emulsion electrospinning

Control on molecular weight reduction of poly(ε-caprolactone) during melt spinning — A way to produce high strength biodegradable fibers

Emulsion templated scaffolds of poly(ε-caprolactone) – a review

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