Effective construction of a high-capacity boronic acid layer on a quartz crystal microbalance chip for high-density antibody immobilization

Pei Heng Lin; Sheng Cih Huang; Kuang Po Chen; Bor-Ran Li; Yaw-Kuen Li

doi:10.3390/s19010028

Effective construction of a high-capacity boronic acid layer on a quartz crystal microbalance chip for high-density antibody immobilization

Pei Heng Lin, Sheng Cih Huang, Kuang Po Chen, Bor-Ran Li^*, Yaw-Kuen Li

^*Corresponding author for this work

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

15 Scopus citations

Abstract

Boronic acids (BAs) provide strong potential in orientation immobilization of antibody and the modification method is crucial for efficiency optimization. A highly effective method has been developed for rapid antibody immobilization on gold electrodes through the electrodeposition of a BA–containing linker in this study. Aniline-based BA forms a condense layer while antibody could automatically immobilize on the surface of the electrode. Compare to traditional self-assembled monolayer method, the electrodeposition process dramatically reduces the modification time from days to seconds. It also enhances the immobilized efficiency from 95 to 408 (ng/cm²) with a strong preference being exhibited for shorter aniline-based linkers.

Original language	English
Article number	28
Pages (from-to)	1-10
Number of pages	10
Journal	Sensors (Switzerland)
Volume	19
Issue number	1
DOIs	https://doi.org/10.3390/s19010028
State	Published - 1 Jan 2019

Keywords

Boronic acid
Electrodeposition
Orientated antibody immobilization
Quartz crystal microbalance

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abstract = "Boronic acids (BAs) provide strong potential in orientation immobilization of antibody and the modification method is crucial for efficiency optimization. A highly effective method has been developed for rapid antibody immobilization on gold electrodes through the electrodeposition of a BA–containing linker in this study. Aniline-based BA forms a condense layer while antibody could automatically immobilize on the surface of the electrode. Compare to traditional self-assembled monolayer method, the electrodeposition process dramatically reduces the modification time from days to seconds. It also enhances the immobilized efficiency from 95 to 408 (ng/cm2) with a strong preference being exhibited for shorter aniline-based linkers.",

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AU - Huang, Sheng Cih

AU - Chen, Kuang Po

AU - Li, Bor-Ran

AU - Li, Yaw-Kuen

PY - 2019/1/1

Y1 - 2019/1/1

N2 - Boronic acids (BAs) provide strong potential in orientation immobilization of antibody and the modification method is crucial for efficiency optimization. A highly effective method has been developed for rapid antibody immobilization on gold electrodes through the electrodeposition of a BA–containing linker in this study. Aniline-based BA forms a condense layer while antibody could automatically immobilize on the surface of the electrode. Compare to traditional self-assembled monolayer method, the electrodeposition process dramatically reduces the modification time from days to seconds. It also enhances the immobilized efficiency from 95 to 408 (ng/cm2) with a strong preference being exhibited for shorter aniline-based linkers.

AB - Boronic acids (BAs) provide strong potential in orientation immobilization of antibody and the modification method is crucial for efficiency optimization. A highly effective method has been developed for rapid antibody immobilization on gold electrodes through the electrodeposition of a BA–containing linker in this study. Aniline-based BA forms a condense layer while antibody could automatically immobilize on the surface of the electrode. Compare to traditional self-assembled monolayer method, the electrodeposition process dramatically reduces the modification time from days to seconds. It also enhances the immobilized efficiency from 95 to 408 (ng/cm2) with a strong preference being exhibited for shorter aniline-based linkers.

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KW - Electrodeposition

KW - Orientated antibody immobilization

KW - Quartz crystal microbalance

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Effective construction of a high-capacity boronic acid layer on a quartz crystal microbalance chip for high-density antibody immobilization

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