Covalent attachment of functional side-groups to polyaniline nanofibres

Emer Lahiff; Silvia Scarmagnani; Benjamin Schazmann; Attilio Cafolla; Dermot Diamond

doi:10.1504/IJNM.2010.029926

Covalent attachment of functional side-groups to polyaniline nanofibres

Emer Lahiff
, Silvia Scarmagnani
, Benjamin Schazmann
, Attilio Cafolla
, Dermot Diamond

Research output: Contribution to journal › Article › peer-review

Abstract

Polyaniline (PAni) is an example of a conducting polymer that can be switched between an insulating and a conductive state. This switching is accompanied by a colour change. Recently, interest has developed in the nanofibre form of PAni as these low dimensional structures have a very high surface area, thus enabling a faster response time. We investigate how the surface chemistry of these nanofibres can be modified by covalently attaching functional side-groups. In particular, we demonstrate the attachment of both amide and carboxylic acid groups. This can be achieved using a simple reflux technique. The modified material retains its nanomorphology and the intrinsic electrochemical, spectroscopic and redox properties of PAni are also preserved. Both acid and amine side-groups are interesting in that they provide a template, which could be further altered to enhance the selectivity of PAni. Acid terminated chains can also be used to introduce self-doping behaviour to PAni.

Original language	English
Pages (from-to)	88-99
Number of pages	12
Journal	International Journal of Nanomanufacturing
Volume	5
Issue number	1-2
DOIs	https://doi.org/10.1504/IJNM.2010.029926
Publication status	Published - 2010
Externally published	Yes

Keywords

Conducting polymer
Nanomaterials
Polyaniline

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10.1504/IJNM.2010.029926

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title = "Covalent attachment of functional side-groups to polyaniline nanofibres",

abstract = "Polyaniline (PAni) is an example of a conducting polymer that can be switched between an insulating and a conductive state. This switching is accompanied by a colour change. Recently, interest has developed in the nanofibre form of PAni as these low dimensional structures have a very high surface area, thus enabling a faster response time. We investigate how the surface chemistry of these nanofibres can be modified by covalently attaching functional side-groups. In particular, we demonstrate the attachment of both amide and carboxylic acid groups. This can be achieved using a simple reflux technique. The modified material retains its nanomorphology and the intrinsic electrochemical, spectroscopic and redox properties of PAni are also preserved. Both acid and amine side-groups are interesting in that they provide a template, which could be further altered to enhance the selectivity of PAni. Acid terminated chains can also be used to introduce self-doping behaviour to PAni.",

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T1 - Covalent attachment of functional side-groups to polyaniline nanofibres

AU - Lahiff, Emer

AU - Scarmagnani, Silvia

AU - Schazmann, Benjamin

AU - Cafolla, Attilio

AU - Diamond, Dermot

PY - 2010

Y1 - 2010

N2 - Polyaniline (PAni) is an example of a conducting polymer that can be switched between an insulating and a conductive state. This switching is accompanied by a colour change. Recently, interest has developed in the nanofibre form of PAni as these low dimensional structures have a very high surface area, thus enabling a faster response time. We investigate how the surface chemistry of these nanofibres can be modified by covalently attaching functional side-groups. In particular, we demonstrate the attachment of both amide and carboxylic acid groups. This can be achieved using a simple reflux technique. The modified material retains its nanomorphology and the intrinsic electrochemical, spectroscopic and redox properties of PAni are also preserved. Both acid and amine side-groups are interesting in that they provide a template, which could be further altered to enhance the selectivity of PAni. Acid terminated chains can also be used to introduce self-doping behaviour to PAni.

AB - Polyaniline (PAni) is an example of a conducting polymer that can be switched between an insulating and a conductive state. This switching is accompanied by a colour change. Recently, interest has developed in the nanofibre form of PAni as these low dimensional structures have a very high surface area, thus enabling a faster response time. We investigate how the surface chemistry of these nanofibres can be modified by covalently attaching functional side-groups. In particular, we demonstrate the attachment of both amide and carboxylic acid groups. This can be achieved using a simple reflux technique. The modified material retains its nanomorphology and the intrinsic electrochemical, spectroscopic and redox properties of PAni are also preserved. Both acid and amine side-groups are interesting in that they provide a template, which could be further altered to enhance the selectivity of PAni. Acid terminated chains can also be used to introduce self-doping behaviour to PAni.

KW - Conducting polymer

KW - Nanomaterials

KW - Polyaniline

UR - https://www.scopus.com/pages/publications/75649122933

U2 - 10.1504/IJNM.2010.029926

DO - 10.1504/IJNM.2010.029926

M3 - Article

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JO - International Journal of Nanomanufacturing

JF - International Journal of Nanomanufacturing

IS - 1-2

ER -

Covalent attachment of functional side-groups to polyaniline nanofibres

Abstract

Keywords

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