Chemical sensing and biosensing with nanostructured porous silicon

V. Torres-Costa; G. Recio-Sánchez; D. Gallach; M. Manso-Silván; J. López-García; R. J. Martín-Palma

doi:10.1201/b18715

Chemical sensing and biosensing with nanostructured porous silicon

V. Torres-Costa
, G. Recio-Sánchez
, D. Gallach
, M. Manso-Silván
, J. López-García
, R. J. Martín-Palma

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

During the past years, nanomaterials are receiving increasing attention as candidates for the development and fabrication of high-sensitivity biosensors, given the accurate control of their physicochemical properties and overall behavior as a result of the precise control over their size, shape, and composition. Within this context, the particular morphology and overall properties of nanostructured porous silicon (nanoPS), which is composed of silicon crystals with typical sizes in the range of a few nanometers, make this material very suitable for its use in the field of chemical sensing and biosensing. In this chapter we will revise our most significant findings in the area of optical and electrical biosensing using nanoPS.

Original language	English
Title of host publication	Nanomaterials for Water Management
Subtitle of host publication	Signal Amplification for Biosensing from Nanostructures
Publisher	Pan Stanford Publishing Pte. Ltd.
Pages	187-200
Number of pages	14
ISBN (Electronic)	9789814463485
ISBN (Print)	9789814463478
DOIs	https://doi.org/10.1201/b18715
Publication status	Published - 1 Jan 2015
Externally published	Yes

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title = "Chemical sensing and biosensing with nanostructured porous silicon",

abstract = "During the past years, nanomaterials are receiving increasing attention as candidates for the development and fabrication of high-sensitivity biosensors, given the accurate control of their physicochemical properties and overall behavior as a result of the precise control over their size, shape, and composition. Within this context, the particular morphology and overall properties of nanostructured porous silicon (nanoPS), which is composed of silicon crystals with typical sizes in the range of a few nanometers, make this material very suitable for its use in the field of chemical sensing and biosensing. In this chapter we will revise our most significant findings in the area of optical and electrical biosensing using nanoPS.",

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AU - Torres-Costa, V.

AU - Recio-Sánchez, G.

AU - Gallach, D.

AU - Manso-Silván, M.

AU - López-García, J.

AU - Martín-Palma, R. J.

PY - 2015/1/1

Y1 - 2015/1/1

N2 - During the past years, nanomaterials are receiving increasing attention as candidates for the development and fabrication of high-sensitivity biosensors, given the accurate control of their physicochemical properties and overall behavior as a result of the precise control over their size, shape, and composition. Within this context, the particular morphology and overall properties of nanostructured porous silicon (nanoPS), which is composed of silicon crystals with typical sizes in the range of a few nanometers, make this material very suitable for its use in the field of chemical sensing and biosensing. In this chapter we will revise our most significant findings in the area of optical and electrical biosensing using nanoPS.

AB - During the past years, nanomaterials are receiving increasing attention as candidates for the development and fabrication of high-sensitivity biosensors, given the accurate control of their physicochemical properties and overall behavior as a result of the precise control over their size, shape, and composition. Within this context, the particular morphology and overall properties of nanostructured porous silicon (nanoPS), which is composed of silicon crystals with typical sizes in the range of a few nanometers, make this material very suitable for its use in the field of chemical sensing and biosensing. In this chapter we will revise our most significant findings in the area of optical and electrical biosensing using nanoPS.

UR - https://www.scopus.com/pages/publications/85054228412

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EP - 200

BT - Nanomaterials for Water Management

PB - Pan Stanford Publishing Pte. Ltd.

ER -

Chemical sensing and biosensing with nanostructured porous silicon

Abstract

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