Functional Ionic Liquids Decorated Carbon Hybrid Nanomaterials for the Electrochemical Biosensors

Ionic liquids are gaining high attention due to their extremely unique physiochemical properties and are being utilized in numerous applications in the field of electrochemistry and bio-nanotechnology. The excellent ionic conductivity and the wide electrochemical window open a new avenue in the cons...

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Autores principales: Pushpesh Ranjan, Shalu Yadav, Mohd Abubakar Sadique, Raju Khan, Jamana Prasad Chaurasia, Avanish Kumar Srivastava
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Publicado: MDPI AG 2021
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Acceso en línea:https://doaj.org/article/77d31b423c5f4258a23b67ac877e7df6
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spelling oai:doaj.org-article:77d31b423c5f4258a23b67ac877e7df62021-11-25T16:54:54ZFunctional Ionic Liquids Decorated Carbon Hybrid Nanomaterials for the Electrochemical Biosensors10.3390/bios111104142079-6374https://doaj.org/article/77d31b423c5f4258a23b67ac877e7df62021-10-01T00:00:00Zhttps://www.mdpi.com/2079-6374/11/11/414https://doaj.org/toc/2079-6374Ionic liquids are gaining high attention due to their extremely unique physiochemical properties and are being utilized in numerous applications in the field of electrochemistry and bio-nanotechnology. The excellent ionic conductivity and the wide electrochemical window open a new avenue in the construction of electrochemical devices. On the other hand, carbon nanomaterials, such as graphene (GR), graphene oxide (GO), carbon dots (CDs), and carbon nanotubes (CNTs), are highly utilized in electrochemical applications. Since they have a large surface area, high conductivity, stability, and functionality, they are promising in biosensor applications. Nevertheless, the combination of ionic liquids (ILs) and carbon nanomaterials (CNMs) results in the functional ILs-CNMs hybrid nanocomposites with considerably improved surface chemistry and electrochemical properties. Moreover, the high functionality and biocompatibility of ILs favor the high loading of biomolecules on the electrode surface. They extremely enhance the sensitivity of the biosensor that reaches the ability of ultra-low detection limit. This review aims to provide the studies of the synthesis, properties, and bonding of functional ILs-CNMs. Further, their electrochemical sensors and biosensor applications for the detection of numerous analytes are also discussed.Pushpesh RanjanShalu YadavMohd Abubakar SadiqueRaju KhanJamana Prasad ChaurasiaAvanish Kumar SrivastavaMDPI AGarticleionic liquidscarbon nanomaterialsgraphenegraphene oxideelectrochemical sensorbiosensorsBiotechnologyTP248.13-248.65ENBiosensors, Vol 11, Iss 414, p 414 (2021)
institution DOAJ
collection DOAJ
language EN
topic ionic liquids
carbon nanomaterials
graphene
graphene oxide
electrochemical sensor
biosensors
Biotechnology
TP248.13-248.65
spellingShingle ionic liquids
carbon nanomaterials
graphene
graphene oxide
electrochemical sensor
biosensors
Biotechnology
TP248.13-248.65
Pushpesh Ranjan
Shalu Yadav
Mohd Abubakar Sadique
Raju Khan
Jamana Prasad Chaurasia
Avanish Kumar Srivastava
Functional Ionic Liquids Decorated Carbon Hybrid Nanomaterials for the Electrochemical Biosensors
description Ionic liquids are gaining high attention due to their extremely unique physiochemical properties and are being utilized in numerous applications in the field of electrochemistry and bio-nanotechnology. The excellent ionic conductivity and the wide electrochemical window open a new avenue in the construction of electrochemical devices. On the other hand, carbon nanomaterials, such as graphene (GR), graphene oxide (GO), carbon dots (CDs), and carbon nanotubes (CNTs), are highly utilized in electrochemical applications. Since they have a large surface area, high conductivity, stability, and functionality, they are promising in biosensor applications. Nevertheless, the combination of ionic liquids (ILs) and carbon nanomaterials (CNMs) results in the functional ILs-CNMs hybrid nanocomposites with considerably improved surface chemistry and electrochemical properties. Moreover, the high functionality and biocompatibility of ILs favor the high loading of biomolecules on the electrode surface. They extremely enhance the sensitivity of the biosensor that reaches the ability of ultra-low detection limit. This review aims to provide the studies of the synthesis, properties, and bonding of functional ILs-CNMs. Further, their electrochemical sensors and biosensor applications for the detection of numerous analytes are also discussed.
format article
author Pushpesh Ranjan
Shalu Yadav
Mohd Abubakar Sadique
Raju Khan
Jamana Prasad Chaurasia
Avanish Kumar Srivastava
author_facet Pushpesh Ranjan
Shalu Yadav
Mohd Abubakar Sadique
Raju Khan
Jamana Prasad Chaurasia
Avanish Kumar Srivastava
author_sort Pushpesh Ranjan
title Functional Ionic Liquids Decorated Carbon Hybrid Nanomaterials for the Electrochemical Biosensors
title_short Functional Ionic Liquids Decorated Carbon Hybrid Nanomaterials for the Electrochemical Biosensors
title_full Functional Ionic Liquids Decorated Carbon Hybrid Nanomaterials for the Electrochemical Biosensors
title_fullStr Functional Ionic Liquids Decorated Carbon Hybrid Nanomaterials for the Electrochemical Biosensors
title_full_unstemmed Functional Ionic Liquids Decorated Carbon Hybrid Nanomaterials for the Electrochemical Biosensors
title_sort functional ionic liquids decorated carbon hybrid nanomaterials for the electrochemical biosensors
publisher MDPI AG
publishDate 2021
url https://doaj.org/article/77d31b423c5f4258a23b67ac877e7df6
work_keys_str_mv AT pushpeshranjan functionalionicliquidsdecoratedcarbonhybridnanomaterialsfortheelectrochemicalbiosensors
AT shaluyadav functionalionicliquidsdecoratedcarbonhybridnanomaterialsfortheelectrochemicalbiosensors
AT mohdabubakarsadique functionalionicliquidsdecoratedcarbonhybridnanomaterialsfortheelectrochemicalbiosensors
AT rajukhan functionalionicliquidsdecoratedcarbonhybridnanomaterialsfortheelectrochemicalbiosensors
AT jamanaprasadchaurasia functionalionicliquidsdecoratedcarbonhybridnanomaterialsfortheelectrochemicalbiosensors
AT avanishkumarsrivastava functionalionicliquidsdecoratedcarbonhybridnanomaterialsfortheelectrochemicalbiosensors
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