Chemical amination via cycloaddition of graphene for use in a glucose sensor

Hongyi Qin; Taehyun Hwang; Chisung Ahn; Jang Ah Kim; Yinhua Jin; Yujin Cho; Cheolmin Shin; Taesung Kim

doi:10.1166/jnn.2016.12231

Chemical amination via cycloaddition of graphene for use in a glucose sensor

Hongyi Qin
, Taehyun Hwang
, Chisung Ahn
, Jang Ah Kim
, Yinhua Jin
, Yujin Cho
, Cheolmin Shin
, Taesung Kim

Department of Mechanical Engineering

Sungkyunkwan University

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

6 Scopus citations

Abstract

Graphene was chemically aminated via cycloaddition. Aziridine-ring linkages were formed by covalently modifying the C-C double bonds in graphene. The aminated graphene presents an enhanced hydrophilicity, the contact angle with water decreases from 80.5° to 58.5°. And the conductivity of aminated graphene exhibits exponential decay as the reaction time increase. If the reaction time is 90 min, the resistance of aminated graphene was increased from ∼32 Ω to ∼2744 Ω. Because the amino group has good biocompatibility, the aminated graphene is designed for use as an enzyme sensor platform, such as glucose sensor based on glucose oxidase. The aminated graphene exhibited a good detection response for glucose. The increase in device current is about 12% in 1.2 mg/mL glucose solution.

Original language	English
Pages (from-to)	5034-5037
Number of pages	4
Journal	Journal of Nanoscience and Nanotechnology
Volume	16
Issue number	5
DOIs	https://doi.org/10.1166/jnn.2016.12231
State	Published - May 2016

Keywords

Aminated graphene
Chemical vapour deposition
Cycloaddition
Sensors

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10.1166/jnn.2016.12231

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title = "Chemical amination via cycloaddition of graphene for use in a glucose sensor",

abstract = "Graphene was chemically aminated via cycloaddition. Aziridine-ring linkages were formed by covalently modifying the C-C double bonds in graphene. The aminated graphene presents an enhanced hydrophilicity, the contact angle with water decreases from 80.5° to 58.5°. And the conductivity of aminated graphene exhibits exponential decay as the reaction time increase. If the reaction time is 90 min, the resistance of aminated graphene was increased from ∼32 Ω to ∼2744 Ω. Because the amino group has good biocompatibility, the aminated graphene is designed for use as an enzyme sensor platform, such as glucose sensor based on glucose oxidase. The aminated graphene exhibited a good detection response for glucose. The increase in device current is about 12\% in 1.2 mg/mL glucose solution.",

keywords = "Aminated graphene, Chemical vapour deposition, Cycloaddition, Sensors",

author = "Hongyi Qin and Taehyun Hwang and Chisung Ahn and Kim, \{Jang Ah\} and Yinhua Jin and Yujin Cho and Cheolmin Shin and Taesung Kim",

year = "2016",

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doi = "10.1166/jnn.2016.12231",

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pages = "5034--5037",

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T1 - Chemical amination via cycloaddition of graphene for use in a glucose sensor

AU - Qin, Hongyi

AU - Hwang, Taehyun

AU - Ahn, Chisung

AU - Kim, Jang Ah

AU - Jin, Yinhua

AU - Cho, Yujin

AU - Shin, Cheolmin

AU - Kim, Taesung

PY - 2016/5

Y1 - 2016/5

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AB - Graphene was chemically aminated via cycloaddition. Aziridine-ring linkages were formed by covalently modifying the C-C double bonds in graphene. The aminated graphene presents an enhanced hydrophilicity, the contact angle with water decreases from 80.5° to 58.5°. And the conductivity of aminated graphene exhibits exponential decay as the reaction time increase. If the reaction time is 90 min, the resistance of aminated graphene was increased from ∼32 Ω to ∼2744 Ω. Because the amino group has good biocompatibility, the aminated graphene is designed for use as an enzyme sensor platform, such as glucose sensor based on glucose oxidase. The aminated graphene exhibited a good detection response for glucose. The increase in device current is about 12% in 1.2 mg/mL glucose solution.

KW - Aminated graphene

KW - Chemical vapour deposition

KW - Cycloaddition

KW - Sensors

UR - https://www.scopus.com/pages/publications/84971500619

U2 - 10.1166/jnn.2016.12231

DO - 10.1166/jnn.2016.12231

M3 - Article

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AN - SCOPUS:84971500619

SN - 1533-4880

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SP - 5034

EP - 5037

JO - Journal of Nanoscience and Nanotechnology

JF - Journal of Nanoscience and Nanotechnology

IS - 5

ER -

Chemical amination via cycloaddition of graphene for use in a glucose sensor

Abstract

Keywords

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