Nanocrystalline silicon-based oligonucleotide chips

Z. Q. Zhu; B. Zhu; J. Zhang; J. Z. Zhu; C. H. Fan

doi:10.1016/j.bios.2006.08.007

Nanocrystalline silicon-based oligonucleotide chips

Z. Q. Zhu
, B. Zhu
, J. Zhang
, J. Z. Zhu^*
, C. H. Fan

^*Corresponding author for this work

School of Communication and Electronic Engineering

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

3 Scopus citations

Abstract

A novel oligonucleotide array sensor has been developed with nanocrystalline Si (ncSi) substrates. The ncSi was prepared by electrochemical etching technique. Our study indicated that both the binding capacity and the hybridization efficiency are dependent upon the particle size of ncSi. In contrary, the chips developed with Si substrates exhibit the lower binding capacity and hybridization efficiency. The improved performances of the sensor chips are attributed to the large specific surface area of ncSi compared to the existing conventional techniques. The sensor chips with the ncSi substrate of 13 nm-sized particle can be regenerated and reused for at least 12 times. The oligonucleotide array sensor also shows high stability, which can bear relatively the stringent conditions (e.g. 80 °C, 75% of relative humidity and 3.6 klx of irradiation).

Original language	English
Pages (from-to)	2351-2355
Number of pages	5
Journal	Biosensors and Bioelectronics
Volume	22
Issue number	9-10
DOIs	https://doi.org/10.1016/j.bios.2006.08.007
State	Published - 15 Apr 2007

Keywords

Binding capacity
Hybridization efficiency
Nanocrystalline silicon
Oligonucleotide array sensor
Regenerated and reused times

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10.1016/j.bios.2006.08.007

Cite this

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title = "Nanocrystalline silicon-based oligonucleotide chips",

abstract = "A novel oligonucleotide array sensor has been developed with nanocrystalline Si (ncSi) substrates. The ncSi was prepared by electrochemical etching technique. Our study indicated that both the binding capacity and the hybridization efficiency are dependent upon the particle size of ncSi. In contrary, the chips developed with Si substrates exhibit the lower binding capacity and hybridization efficiency. The improved performances of the sensor chips are attributed to the large specific surface area of ncSi compared to the existing conventional techniques. The sensor chips with the ncSi substrate of 13 nm-sized particle can be regenerated and reused for at least 12 times. The oligonucleotide array sensor also shows high stability, which can bear relatively the stringent conditions (e.g. 80 °C, 75\% of relative humidity and 3.6 klx of irradiation).",

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year = "2007",

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TY - JOUR

T1 - Nanocrystalline silicon-based oligonucleotide chips

AU - Zhu, Z. Q.

AU - Zhu, B.

AU - Zhang, J.

AU - Zhu, J. Z.

AU - Fan, C. H.

PY - 2007/4/15

Y1 - 2007/4/15

N2 - A novel oligonucleotide array sensor has been developed with nanocrystalline Si (ncSi) substrates. The ncSi was prepared by electrochemical etching technique. Our study indicated that both the binding capacity and the hybridization efficiency are dependent upon the particle size of ncSi. In contrary, the chips developed with Si substrates exhibit the lower binding capacity and hybridization efficiency. The improved performances of the sensor chips are attributed to the large specific surface area of ncSi compared to the existing conventional techniques. The sensor chips with the ncSi substrate of 13 nm-sized particle can be regenerated and reused for at least 12 times. The oligonucleotide array sensor also shows high stability, which can bear relatively the stringent conditions (e.g. 80 °C, 75% of relative humidity and 3.6 klx of irradiation).

AB - A novel oligonucleotide array sensor has been developed with nanocrystalline Si (ncSi) substrates. The ncSi was prepared by electrochemical etching technique. Our study indicated that both the binding capacity and the hybridization efficiency are dependent upon the particle size of ncSi. In contrary, the chips developed with Si substrates exhibit the lower binding capacity and hybridization efficiency. The improved performances of the sensor chips are attributed to the large specific surface area of ncSi compared to the existing conventional techniques. The sensor chips with the ncSi substrate of 13 nm-sized particle can be regenerated and reused for at least 12 times. The oligonucleotide array sensor also shows high stability, which can bear relatively the stringent conditions (e.g. 80 °C, 75% of relative humidity and 3.6 klx of irradiation).

KW - Binding capacity

KW - Hybridization efficiency

KW - Nanocrystalline silicon

KW - Oligonucleotide array sensor

KW - Regenerated and reused times

UR - https://www.scopus.com/pages/publications/33847398224

U2 - 10.1016/j.bios.2006.08.007

DO - 10.1016/j.bios.2006.08.007

M3 - 文章

C2 - 16982184

AN - SCOPUS:33847398224

SN - 0956-5663

VL - 22

SP - 2351

EP - 2355

JO - Biosensors and Bioelectronics

JF - Biosensors and Bioelectronics

IS - 9-10

ER -

Nanocrystalline silicon-based oligonucleotide chips

Abstract

Keywords

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