Hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation

Composite materials, incorporating noble metal and metal oxide nanoparticles, have attracted much interest as active substrates for biosensor electronics. These nanoparticles provide a viable microenvironment for biomolecule immobilization by retaining their biological activity with desired orientat...

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Main Authors:	Daniele, Michael A., Pedrero, Maria, Burrs, Stephanie, Chaturvedi, Prachee, Wan Salim, Wan Wardatul Amani, Kuralay, Filiz, Campuzano-Ruiz, Susana, McLamore, Eric, Claussen, Jonathan C., Cargill, Allison A., Ding, Shaowei
Other Authors:	Vestergaard, Mun'delanji C.
Format:	Book Chapter
Language:	English
Published:	Springer 2015
Subjects:	QD Chemistry TK Electrical engineering. Electronics Nuclear engineering
Online Access:	http://irep.iium.edu.my/43889/ http://irep.iium.edu.my/43889/ http://irep.iium.edu.my/43889/ http://irep.iium.edu.my/43889/7/nanobiosensior%26nanobioanalitic-completed-1.pdf

id	iium-43889
recordtype	eprints
spelling	iium-438892016-12-14T00:46:46Z http://irep.iium.edu.my/43889/ Hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation Daniele, Michael A. Pedrero, Maria Burrs, Stephanie Chaturvedi, Prachee Wan Salim, Wan Wardatul Amani Kuralay, Filiz Campuzano-Ruiz, Susana McLamore, Eric Claussen, Jonathan C. Cargill, Allison A. Ding, Shaowei Claussen, Jonathan C. QD Chemistry TK Electrical engineering. Electronics Nuclear engineering Composite materials, incorporating noble metal and metal oxide nanoparticles, have attracted much interest as active substrates for biosensor electronics. These nanoparticles provide a viable microenvironment for biomolecule immobilization by retaining their biological activity with desired orientation and for facilitating transduction of the biorecognition event. Herein, we discuss various methods for fabrication of metal and metal oxide nanoparticle composite materials and their applications in different electrochemical biosensors. The materials are organized by the corresponding component with the nanoparticles, i.e. carbon-based composites, polymers, and DNA. The performance of hybrids is compared and examples of biosensing apparatus are discussed. In all cases, the engineering of morphology, particle size, effective surface area, functionality, adsorption capability, and electron-transfer properties directly impact the resultant biosensing capabilities. Ultimately, these attractive features of metal and metal-oxide hybrid materials are expected to find applications in the next generation of smart biosensors. Springer Vestergaard, Mun'delanji C. Kerman, Kagan Hsing, I-Ming Tamiya, Eiichi 2015 Book Chapter PeerReviewed application/pdf en http://irep.iium.edu.my/43889/7/nanobiosensior%26nanobioanalitic-completed-1.pdf Daniele, Michael A. and Pedrero, Maria and Burrs, Stephanie and Chaturvedi, Prachee and Wan Salim, Wan Wardatul Amani and Kuralay, Filiz and Campuzano-Ruiz, Susana and McLamore, Eric and Claussen, Jonathan C. and Cargill, Allison A. and Ding, Shaowei and Claussen, Jonathan C. (2015) Hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation. In: Nanobiosensor and Nanobioanalyses. Springer, Japan, pp. 137-166. ISBN 978-4-431-55189-8 http://link.springer.com/chapter/10.1007/978-4-431-55190-4_8 10.1007/978-4-431-55190-4_8
repository_type	Digital Repository
institution_category	Local University
institution	International Islamic University Malaysia
building	IIUM Repository
collection	Online Access
language	English
topic	QD Chemistry TK Electrical engineering. Electronics Nuclear engineering
spellingShingle	QD Chemistry TK Electrical engineering. Electronics Nuclear engineering Daniele, Michael A. Pedrero, Maria Burrs, Stephanie Chaturvedi, Prachee Wan Salim, Wan Wardatul Amani Kuralay, Filiz Campuzano-Ruiz, Susana McLamore, Eric Claussen, Jonathan C. Cargill, Allison A. Ding, Shaowei Claussen, Jonathan C. Hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation
description	Composite materials, incorporating noble metal and metal oxide nanoparticles, have attracted much interest as active substrates for biosensor electronics. These nanoparticles provide a viable microenvironment for biomolecule immobilization by retaining their biological activity with desired orientation and for facilitating transduction of the biorecognition event. Herein, we discuss various methods for fabrication of metal and metal oxide nanoparticle composite materials and their applications in different electrochemical biosensors. The materials are organized by the corresponding component with the nanoparticles, i.e. carbon-based composites, polymers, and DNA. The performance of hybrids is compared and examples of biosensing apparatus are discussed. In all cases, the engineering of morphology, particle size, effective surface area, functionality, adsorption capability, and electron-transfer properties directly impact the resultant biosensing capabilities. Ultimately, these attractive features of metal and metal-oxide hybrid materials are expected to find applications in the next generation of smart biosensors.
author2	Vestergaard, Mun'delanji C.
author_facet	Vestergaard, Mun'delanji C. Daniele, Michael A. Pedrero, Maria Burrs, Stephanie Chaturvedi, Prachee Wan Salim, Wan Wardatul Amani Kuralay, Filiz Campuzano-Ruiz, Susana McLamore, Eric Claussen, Jonathan C. Cargill, Allison A. Ding, Shaowei Claussen, Jonathan C.
format	Book Chapter
author	Daniele, Michael A. Pedrero, Maria Burrs, Stephanie Chaturvedi, Prachee Wan Salim, Wan Wardatul Amani Kuralay, Filiz Campuzano-Ruiz, Susana McLamore, Eric Claussen, Jonathan C. Cargill, Allison A. Ding, Shaowei Claussen, Jonathan C.
author_sort	Daniele, Michael A.
title	Hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation
title_short	Hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation
title_full	Hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation
title_fullStr	Hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation
title_full_unstemmed	Hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation
title_sort	hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation
publisher	Springer
publishDate	2015
url	http://irep.iium.edu.my/43889/ http://irep.iium.edu.my/43889/ http://irep.iium.edu.my/43889/ http://irep.iium.edu.my/43889/7/nanobiosensior%26nanobioanalitic-completed-1.pdf
first_indexed	2023-09-18T21:02:27Z
last_indexed	2023-09-18T21:02:27Z
_version_	1777410714206470144

Hybrid metallic nanoparticles: enhanced bioanalysis and biosensing via carbon nanotubes, graphene, and organic conjugation

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