Facile preparation of CoMoO4 nanorods at macroporous carbon hybrid electrocatalyst for non-enzymatic glucose detection

[Display omitted] •Nanorod-like CoMoO4 at MPC supports were prepared by a simple method.•CoMoO4/MPC hybrids were acted as an effective sensing platform for non-enzymatic glucose detection.•The novel CoMoO4/MPC hybrids will hold promise in development of electrode materials. Glucose is a popular bios...

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Published inJournal of colloid and interface science Vol. 560; pp. 1 - 10
Main Authors Meng, Tianjiao, Jia, Huixian, Ye, Huimin, Zeng, Tao, Yang, Xinjian, Wang, Huan, Zhang, Yufan
Format Journal Article
LanguageEnglish
Published Elsevier Inc 15.02.2020
Subjects
biosensors
blood
blood sampling
carbon
catalysts
catalytic activity
CoMoO4 nanorods
detection limit
diabetes
electrical conductivity
Electrochemical sensors
electrochemistry
Glucose
humans
hypoglycemia
Macroporous carbon
nanorods
Non-enzymatic
oxidation
porous media
synergism
CoMoO4 nanorods
Non-enzymatic
Glucose
Macroporous carbon
Electrochemical sensors
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Abstract [Display omitted] •Nanorod-like CoMoO4 at MPC supports were prepared by a simple method.•CoMoO4/MPC hybrids were acted as an effective sensing platform for non-enzymatic glucose detection.•The novel CoMoO4/MPC hybrids will hold promise in development of electrode materials. Glucose is a popular biosensor target due to its closely with diabetes or hypoglycemia in blood. Designing efficiency electrocatalysts for the determination of glucose is vital to develop glucose detection devices. CoMoO4, as a kind of bimetallic oxide material, exhibits unique electrochemical properties. 3D macroporous carbon (MPC) has large specific surface area and excellent electrical conductivity, providing an effective support for loading other nano-entities to form novel composite with good synergetic effects. Herein, nanorod-like CoMoO4 anchored onto MPC support was synthesized for the development of a promising electrochemical sensing platform for glucose. Attributing to the synergic effects between the good electrocatalytic performance of CoMoO4 nanorods and the extraordinary electrical conductivity of 3D layered MPC, the novel CoMoO4/MPC composites non-enzymatic sensor shows excellent electrocatalytic performance for oxidation of glucose. Under the optimum conditions, the proposed CoMoO4/MPC hybrids provided a reliable linear range of 5 × 10−7 to 1.08 × 10−4 M with a low limit of detection (0.13 μM) for the detection of glucose. Meanwhile, the CoMoO4/MPC sensing platform shows fast response time of 1.76 s, good stability and selectivity for detecting glucose. Moreover, this non-enzymatic sensor also has been successfully applied to measure glucose level in human blood samples. Therefore, the developed sensor holds a new promise for the construction of facile and sensitive non-enzymatic glucose analytical platform.
AbstractList [Display omitted] •Nanorod-like CoMoO4 at MPC supports were prepared by a simple method.•CoMoO4/MPC hybrids were acted as an effective sensing platform for non-enzymatic glucose detection.•The novel CoMoO4/MPC hybrids will hold promise in development of electrode materials. Glucose is a popular biosensor target due to its closely with diabetes or hypoglycemia in blood. Designing efficiency electrocatalysts for the determination of glucose is vital to develop glucose detection devices. CoMoO4, as a kind of bimetallic oxide material, exhibits unique electrochemical properties. 3D macroporous carbon (MPC) has large specific surface area and excellent electrical conductivity, providing an effective support for loading other nano-entities to form novel composite with good synergetic effects. Herein, nanorod-like CoMoO4 anchored onto MPC support was synthesized for the development of a promising electrochemical sensing platform for glucose. Attributing to the synergic effects between the good electrocatalytic performance of CoMoO4 nanorods and the extraordinary electrical conductivity of 3D layered MPC, the novel CoMoO4/MPC composites non-enzymatic sensor shows excellent electrocatalytic performance for oxidation of glucose. Under the optimum conditions, the proposed CoMoO4/MPC hybrids provided a reliable linear range of 5 × 10−7 to 1.08 × 10−4 M with a low limit of detection (0.13 μM) for the detection of glucose. Meanwhile, the CoMoO4/MPC sensing platform shows fast response time of 1.76 s, good stability and selectivity for detecting glucose. Moreover, this non-enzymatic sensor also has been successfully applied to measure glucose level in human blood samples. Therefore, the developed sensor holds a new promise for the construction of facile and sensitive non-enzymatic glucose analytical platform.
Glucose is a popular biosensor target due to its closely with diabetes or hypoglycemia in blood. Designing efficiency electrocatalysts for the determination of glucose is vital to develop glucose detection devices. CoMoO4, as a kind of bimetallic oxide material, exhibits unique electrochemical properties. 3D macroporous carbon (MPC) has large specific surface area and excellent electrical conductivity, providing an effective support for loading other nano-entities to form novel composite with good synergetic effects. Herein, nanorod-like CoMoO4 anchored onto MPC support was synthesized for the development of a promising electrochemical sensing platform for glucose. Attributing to the synergic effects between the good electrocatalytic performance of CoMoO4 nanorods and the extraordinary electrical conductivity of 3D layered MPC, the novel CoMoO4/MPC composites non-enzymatic sensor shows excellent electrocatalytic performance for oxidation of glucose. Under the optimum conditions, the proposed CoMoO4/MPC hybrids provided a reliable linear range of 5 × 10-7 to 1.08 × 10-4 M with a low limit of detection (0.13 μM) for the detection of glucose. Meanwhile, the CoMoO4/MPC sensing platform shows fast response time of 1.76 s, good stability and selectivity for detecting glucose. Moreover, this non-enzymatic sensor also has been successfully applied to measure glucose level in human blood samples. Therefore, the developed sensor holds a new promise for the construction of facile and sensitive non-enzymatic glucose analytical platform.Glucose is a popular biosensor target due to its closely with diabetes or hypoglycemia in blood. Designing efficiency electrocatalysts for the determination of glucose is vital to develop glucose detection devices. CoMoO4, as a kind of bimetallic oxide material, exhibits unique electrochemical properties. 3D macroporous carbon (MPC) has large specific surface area and excellent electrical conductivity, providing an effective support for loading other nano-entities to form novel composite with good synergetic effects. Herein, nanorod-like CoMoO4 anchored onto MPC support was synthesized for the development of a promising electrochemical sensing platform for glucose. Attributing to the synergic effects between the good electrocatalytic performance of CoMoO4 nanorods and the extraordinary electrical conductivity of 3D layered MPC, the novel CoMoO4/MPC composites non-enzymatic sensor shows excellent electrocatalytic performance for oxidation of glucose. Under the optimum conditions, the proposed CoMoO4/MPC hybrids provided a reliable linear range of 5 × 10-7 to 1.08 × 10-4 M with a low limit of detection (0.13 μM) for the detection of glucose. Meanwhile, the CoMoO4/MPC sensing platform shows fast response time of 1.76 s, good stability and selectivity for detecting glucose. Moreover, this non-enzymatic sensor also has been successfully applied to measure glucose level in human blood samples. Therefore, the developed sensor holds a new promise for the construction of facile and sensitive non-enzymatic glucose analytical platform.
Glucose is a popular biosensor target due to its closely with diabetes or hypoglycemia in blood. Designing efficiency electrocatalysts for the determination of glucose is vital to develop glucose detection devices. CoMoO₄, as a kind of bimetallic oxide material, exhibits unique electrochemical properties. 3D macroporous carbon (MPC) has large specific surface area and excellent electrical conductivity, providing an effective support for loading other nano-entities to form novel composite with good synergetic effects. Herein, nanorod-like CoMoO₄ anchored onto MPC support was synthesized for the development of a promising electrochemical sensing platform for glucose. Attributing to the synergic effects between the good electrocatalytic performance of CoMoO₄ nanorods and the extraordinary electrical conductivity of 3D layered MPC, the novel CoMoO₄/MPC composites non-enzymatic sensor shows excellent electrocatalytic performance for oxidation of glucose. Under the optimum conditions, the proposed CoMoO₄/MPC hybrids provided a reliable linear range of 5 × 10⁻⁷ to 1.08 × 10⁻⁴ M with a low limit of detection (0.13 μM) for the detection of glucose. Meanwhile, the CoMoO₄/MPC sensing platform shows fast response time of 1.76 s, good stability and selectivity for detecting glucose. Moreover, this non-enzymatic sensor also has been successfully applied to measure glucose level in human blood samples. Therefore, the developed sensor holds a new promise for the construction of facile and sensitive non-enzymatic glucose analytical platform.
Author Meng, Tianjiao
Wang, Huan
Ye, Huimin
Zeng, Tao
Yang, Xinjian
Zhang, Yufan
Jia, Huixian
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  surname: Meng
  fullname: Meng, Tianjiao
  organization: Key Laboratory of Medicinal Chemistry and Molecular Diagnosis of Ministry of Education, Key Laboratory of Analytical Science and Technology of Hebei Province, College of Chemistry and Environmental Science, Hebei University, Baoding, Hebei 071002, China
– sequence: 2
  givenname: Huixian
  surname: Jia
  fullname: Jia, Huixian
  organization: Key Laboratory of Medicinal Chemistry and Molecular Diagnosis of Ministry of Education, Key Laboratory of Analytical Science and Technology of Hebei Province, College of Chemistry and Environmental Science, Hebei University, Baoding, Hebei 071002, China
– sequence: 3
  givenname: Huimin
  surname: Ye
  fullname: Ye, Huimin
  organization: Key Laboratory of Medicinal Chemistry and Molecular Diagnosis of Ministry of Education, Key Laboratory of Analytical Science and Technology of Hebei Province, College of Chemistry and Environmental Science, Hebei University, Baoding, Hebei 071002, China
– sequence: 4
  givenname: Tao
  surname: Zeng
  fullname: Zeng, Tao
  organization: College of Environment, Zhejiang University of Technology, Hangzhou, Zhejiang 310014, China
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  givenname: Xinjian
  orcidid: 0000-0001-9430-9815
  surname: Yang
  fullname: Yang, Xinjian
  organization: Key Laboratory of Medicinal Chemistry and Molecular Diagnosis of Ministry of Education, Key Laboratory of Analytical Science and Technology of Hebei Province, College of Chemistry and Environmental Science, Hebei University, Baoding, Hebei 071002, China
– sequence: 6
  givenname: Huan
  surname: Wang
  fullname: Wang, Huan
  organization: Key Laboratory of Medicinal Chemistry and Molecular Diagnosis of Ministry of Education, Key Laboratory of Analytical Science and Technology of Hebei Province, College of Chemistry and Environmental Science, Hebei University, Baoding, Hebei 071002, China
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  givenname: Yufan
  orcidid: 0000-0002-3104-1070
  surname: Zhang
  fullname: Zhang, Yufan
  email: zyf@hbu.edu.cn
  organization: Key Laboratory of Medicinal Chemistry and Molecular Diagnosis of Ministry of Education, Key Laboratory of Analytical Science and Technology of Hebei Province, College of Chemistry and Environmental Science, Hebei University, Baoding, Hebei 071002, China
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Keywords CoMoO4 nanorods
Non-enzymatic
Glucose
Macroporous carbon
Electrochemical sensors
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Snippet [Display omitted] •Nanorod-like CoMoO4 at MPC supports were prepared by a simple method.•CoMoO4/MPC hybrids were acted as an effective sensing platform for...
Glucose is a popular biosensor target due to its closely with diabetes or hypoglycemia in blood. Designing efficiency electrocatalysts for the determination of...
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SubjectTerms biosensors
blood
blood sampling
carbon
catalysts
catalytic activity
CoMoO4 nanorods
detection limit
diabetes
electrical conductivity
Electrochemical sensors
electrochemistry
Glucose
humans
hypoglycemia
Macroporous carbon
nanorods
Non-enzymatic
oxidation
porous media
synergism
Title Facile preparation of CoMoO4 nanorods at macroporous carbon hybrid electrocatalyst for non-enzymatic glucose detection
URI https://dx.doi.org/10.1016/j.jcis.2019.10.054
https://www.proquest.com/docview/2307397743
https://www.proquest.com/docview/2352432054
Volume 560
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