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Carbon nanotubes in electrochemical, colorimetric, and fluorimetric immunosensors and immunoassays: a review

This review (with 126 references) summarizes the progress that has been made in the use of carbon nanotubes (CNTs) in immunoassays and immunosensors. Following an introduction into the field, a first large section covers functional group-modified CNTs as carriers for antibodies (with subsections on... Full description

Journal Title: Mikrochimica acta (1966) 2020, Vol.187 (4), p.206-206
Main Author: Yang, Hualin
Other Authors: Xu, Wentao , Liang, Xiongyan , Yang, Yuying , Zhou, Yu
Format: Electronic Article Electronic Article
Language: English
Subjects:
Publisher: Vienna: Springer Vienna
ID: ISSN: 0026-3672
Link: https://www.ncbi.nlm.nih.gov/pubmed/32152753
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title: Carbon nanotubes in electrochemical, colorimetric, and fluorimetric immunosensors and immunoassays: a review
format: Article
creator:
  • Yang, Hualin
  • Xu, Wentao
  • Liang, Xiongyan
  • Yang, Yuying
  • Zhou, Yu
subjects:
  • Analytical Chemistry
  • Antibodies
  • Carbon nanotubes
  • Characterization and Evaluation of Materials
  • Chemistry
  • Chemistry and Materials Science
  • Chitosan
  • Colorimetry
  • Electrons
  • Functional groups
  • Graphene
  • Immunoassay
  • Immunosensors
  • Indium tin oxide
  • Inorganic materials
  • Ionic liquids
  • Ions
  • Iron oxides
  • Metal clusters
  • Microengineering
  • Nanochemistry
  • Nanoparticles
  • Nanotechnology
  • Organic materials
  • Polystyrene resins
  • Review Article
  • Titanium dioxide
  • Zinc oxide
ispartof: Mikrochimica acta (1966), 2020, Vol.187 (4), p.206-206
description: This review (with 126 references) summarizes the progress that has been made in the use of carbon nanotubes (CNTs) in immunoassays and immunosensors. Following an introduction into the field, a first large section covers functional group-modified CNTs as carriers for antibodies (with subsections on CNTs modified with amino, carboxy and by various other materials). The next section treats CNTs coupled with inorganic or organic materials as active components (with the use of nanoparticles such as Fe 3 O 4 , ZnO, gold) or with indium tin oxide (ITO), NiCoBP, ionic liquids, TiO 2 nanosheets, metal clusters; chitosan, polystyrene, polydopamine, graphene, or enzymes. Another section discusses the synergistic effects of CNTs with metals, metal ions, and organic/inorganic materials. Several Tables are presented that give an overview on the wealth of methods and materials. A concluding section summarizes the current status, addresses current challenges, and gives an outlook on potential future trends. Graphical abstract Schematic presentation of the roles of carbon nanotubes (CNTs) in immunosensors and immunoassays. (I) Functional group-modified CNTs as carriers for antibody; (II) CNTs coupled with metal or organic materials as active component; and (III) Synergistic effects of CNTs with other materials to improve the parameters of immunosensors.
language: eng
source:
identifier: ISSN: 0026-3672
fulltext: no_fulltext
issn:
  • 0026-3672
  • 1436-5073
url: Link


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descriptionThis review (with 126 references) summarizes the progress that has been made in the use of carbon nanotubes (CNTs) in immunoassays and immunosensors. Following an introduction into the field, a first large section covers functional group-modified CNTs as carriers for antibodies (with subsections on CNTs modified with amino, carboxy and by various other materials). The next section treats CNTs coupled with inorganic or organic materials as active components (with the use of nanoparticles such as Fe 3 O 4 , ZnO, gold) or with indium tin oxide (ITO), NiCoBP, ionic liquids, TiO 2 nanosheets, metal clusters; chitosan, polystyrene, polydopamine, graphene, or enzymes. Another section discusses the synergistic effects of CNTs with metals, metal ions, and organic/inorganic materials. Several Tables are presented that give an overview on the wealth of methods and materials. A concluding section summarizes the current status, addresses current challenges, and gives an outlook on potential future trends. Graphical abstract Schematic presentation of the roles of carbon nanotubes (CNTs) in immunosensors and immunoassays. (I) Functional group-modified CNTs as carriers for antibody; (II) CNTs coupled with metal or organic materials as active component; and (III) Synergistic effects of CNTs with other materials to improve the parameters of immunosensors.
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subjectAnalytical Chemistry ; Antibodies ; Carbon nanotubes ; Characterization and Evaluation of Materials ; Chemistry ; Chemistry and Materials Science ; Chitosan ; Colorimetry ; Electrons ; Functional groups ; Graphene ; Immunoassay ; Immunosensors ; Indium tin oxide ; Inorganic materials ; Ionic liquids ; Ions ; Iron oxides ; Metal clusters ; Microengineering ; Nanochemistry ; Nanoparticles ; Nanotechnology ; Organic materials ; Polystyrene resins ; Review Article ; Titanium dioxide ; Zinc oxide
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abstractThis review (with 126 references) summarizes the progress that has been made in the use of carbon nanotubes (CNTs) in immunoassays and immunosensors. Following an introduction into the field, a first large section covers functional group-modified CNTs as carriers for antibodies (with subsections on CNTs modified with amino, carboxy and by various other materials). The next section treats CNTs coupled with inorganic or organic materials as active components (with the use of nanoparticles such as Fe 3 O 4 , ZnO, gold) or with indium tin oxide (ITO), NiCoBP, ionic liquids, TiO 2 nanosheets, metal clusters; chitosan, polystyrene, polydopamine, graphene, or enzymes. Another section discusses the synergistic effects of CNTs with metals, metal ions, and organic/inorganic materials. Several Tables are presented that give an overview on the wealth of methods and materials. A concluding section summarizes the current status, addresses current challenges, and gives an outlook on potential future trends. Graphical abstract Schematic presentation of the roles of carbon nanotubes (CNTs) in immunosensors and immunoassays. (I) Functional group-modified CNTs as carriers for antibody; (II) CNTs coupled with metal or organic materials as active component; and (III) Synergistic effects of CNTs with other materials to improve the parameters of immunosensors.
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