Effects of the gold nanoparticles including different thiol functional groups on the performances of glucose-oxidase-based glucose sensing devices

Marcelinus Christwardana; Yongjin Chung; Daniel Chris Tannia; Yongchai Kwon

doi:10.1007/s11814-018-0163-0

Effects of the gold nanoparticles including different thiol functional groups on the performances of glucose-oxidase-based glucose sensing devices

Marcelinus Christwardana, Yongjin Chung, Daniel Chris Tannia, Yongchai Kwon

Dept. of Chemical and Biomolecular Engineering

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

31 Scopus citations

Abstract

Thiol-based self-assembled anchor linked to glucose oxidase (GOx) and gold nanoparticle (GNP) cluster is suggested to enhance the performance of glucose biosensor. By the adoption of thiol-based anchors, the activity of biocatalyst consisting of GOx, GNP, polyethyleneimine (PEI) and carbon nanotube (CNT) is improved because they play a crucial role in preventing the leaching out of GOx. They also promote electron collection and transfer, and this is due to a strong hydrophobic interaction between the active site of GOx and the aromatic ring of anchor, while the effect is optimized with the use of thiophenol anchor due to its simple configuration. Based on that, it is quantified that by the adoption of thiophenol as anchor, the current density of flavin adenine dinucleotide (FAD) redox reaction increases about 42%, electron transfer rate constant (k_s) is 9.1±0.1 s⁻¹ and the value is 26% higher than that of catalyst that does not use the anchor structure.

Original language	English
Pages (from-to)	2421-2429
Number of pages	9
Journal	Korean Journal of Chemical Engineering
Volume	35
Issue number	12
DOIs	https://doi.org/10.1007/s11814-018-0163-0
State	Published - 1 Dec 2018

Keywords

Biosensor
Glucose Oxidase
Gold Nanoparticles
Polyethylenimine
Thiol-based Self-assembled Anchor

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10.1007/s11814-018-0163-0

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title = "Effects of the gold nanoparticles including different thiol functional groups on the performances of glucose-oxidase-based glucose sensing devices",

abstract = "Thiol-based self-assembled anchor linked to glucose oxidase (GOx) and gold nanoparticle (GNP) cluster is suggested to enhance the performance of glucose biosensor. By the adoption of thiol-based anchors, the activity of biocatalyst consisting of GOx, GNP, polyethyleneimine (PEI) and carbon nanotube (CNT) is improved because they play a crucial role in preventing the leaching out of GOx. They also promote electron collection and transfer, and this is due to a strong hydrophobic interaction between the active site of GOx and the aromatic ring of anchor, while the effect is optimized with the use of thiophenol anchor due to its simple configuration. Based on that, it is quantified that by the adoption of thiophenol as anchor, the current density of flavin adenine dinucleotide (FAD) redox reaction increases about 42\%, electron transfer rate constant (ks) is 9.1±0.1 s−1 and the value is 26\% higher than that of catalyst that does not use the anchor structure.",

keywords = "Biosensor, Glucose Oxidase, Gold Nanoparticles, Polyethylenimine, Thiol-based Self-assembled Anchor",

author = "Marcelinus Christwardana and Yongjin Chung and Tannia, \{Daniel Chris\} and Yongchai Kwon",

note = "Publisher Copyright: {\textcopyright} 2018, Korean Institute of Chemical Engineers, Seoul, Korea.",

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doi = "10.1007/s11814-018-0163-0",

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Effects of the gold nanoparticles including different thiol functional groups on the performances of glucose-oxidase-based glucose sensing devices. / Christwardana, Marcelinus; Chung, Yongjin; Tannia, Daniel Chris et al.
In: Korean Journal of Chemical Engineering, Vol. 35, No. 12, 01.12.2018, p. 2421-2429.

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

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T1 - Effects of the gold nanoparticles including different thiol functional groups on the performances of glucose-oxidase-based glucose sensing devices

AU - Christwardana, Marcelinus

AU - Chung, Yongjin

AU - Tannia, Daniel Chris

AU - Kwon, Yongchai

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Thiol-based self-assembled anchor linked to glucose oxidase (GOx) and gold nanoparticle (GNP) cluster is suggested to enhance the performance of glucose biosensor. By the adoption of thiol-based anchors, the activity of biocatalyst consisting of GOx, GNP, polyethyleneimine (PEI) and carbon nanotube (CNT) is improved because they play a crucial role in preventing the leaching out of GOx. They also promote electron collection and transfer, and this is due to a strong hydrophobic interaction between the active site of GOx and the aromatic ring of anchor, while the effect is optimized with the use of thiophenol anchor due to its simple configuration. Based on that, it is quantified that by the adoption of thiophenol as anchor, the current density of flavin adenine dinucleotide (FAD) redox reaction increases about 42%, electron transfer rate constant (ks) is 9.1±0.1 s−1 and the value is 26% higher than that of catalyst that does not use the anchor structure.

AB - Thiol-based self-assembled anchor linked to glucose oxidase (GOx) and gold nanoparticle (GNP) cluster is suggested to enhance the performance of glucose biosensor. By the adoption of thiol-based anchors, the activity of biocatalyst consisting of GOx, GNP, polyethyleneimine (PEI) and carbon nanotube (CNT) is improved because they play a crucial role in preventing the leaching out of GOx. They also promote electron collection and transfer, and this is due to a strong hydrophobic interaction between the active site of GOx and the aromatic ring of anchor, while the effect is optimized with the use of thiophenol anchor due to its simple configuration. Based on that, it is quantified that by the adoption of thiophenol as anchor, the current density of flavin adenine dinucleotide (FAD) redox reaction increases about 42%, electron transfer rate constant (ks) is 9.1±0.1 s−1 and the value is 26% higher than that of catalyst that does not use the anchor structure.

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Effects of the gold nanoparticles including different thiol functional groups on the performances of glucose-oxidase-based glucose sensing devices

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