Synthesis and functionalization of graphene and application in electrochemical biosensing

Saini, Deepshikha

doi:10.1515/ntrev-2015-0059

Cited by 29 publications

(14 citation statements)

References 193 publications

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“…These are used to find different types of properties as listed in Table 1. Nanosensors have a wide range of applications, including liquid flow rate measurement, early disease detection, detection of gene mutations, DNA sequencing, gas detection, accurate monitors of material states, and monitoring glucose levels for diabetic subjects [41][42][43][44][45][46][47][48].…”

Section: Sensorsmentioning

confidence: 99%

Advances in modelling and analysis of nano structures: a review

Chandel

Wang

Talha

2020

Nanotechnology Reviews

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AbstractNanostructures are widely used in nano and micro-sized systems and devices such as biosensors, nano actuators, nano-probes, and nano-electro-mechanical systems. The complete understanding of the mechanical behavior of nanostructures is crucial for the design of nanodevices and systems. Therefore, the flexural, stability and vibration analysis of various nanostructures such as nanowires, nanotubes, nanobeams, nanoplates, graphene sheets and nanoshells has received a great attention in recent years. The focus has been made, to present the structural analysis of nanostructures under thermo-magneto-electro-mechanical loadings under various boundary and environmental conditions. This paper also provides an overview of analytical modeling methods, fabrication procedures, key challenges and future scopes of development in the direction of analysis of such structures, which will be helpful for appropriate design and analysis of nanodevices for the application in the various fields of nanotechnology.

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Section: Sensorsmentioning

confidence: 99%

Advances in modelling and analysis of nano structures: a review

Chandel

Wang

Talha

2020

Nanotechnology Reviews

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“…In recent years, the functionalization of graphene has gained significant attention due to the sensitivity of graphene to a reproducible, effective, and homogenous functionalization in comparison with other carbon materials; thus, enhancing its sensing capabilities for different electroanalytical applications [100,128]. Numerous modification techniques have been utilized to incorporate biorecognition molecules in graphene that are capable of finely detecting the target biomolecules and improving the dispersion of graphene.…”

Section: Synthesis Of Graphene and Its Derivativesmentioning

confidence: 99%

A Brief Description of Cyclic Voltammetry Transducer-Based Non-Enzymatic Glucose Biosensor Using Synthesized Graphene Electrodes

Fahmy

Ashraf

Caesarendra

2020

ASI

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The essential disadvantages of conventional glucose enzymatic biosensors such as high fabrication cost, poor stability of enzymes, pH value-dependent, and dedicated limitations, have been increasing the attraction of non-enzymatic glucose sensors research. Beneficially, patients with diabetes could use this type of sensor as a fourth-generation of glucose sensors with a very low cost and high performance. We demonstrate the most common acceptable transducer for a non-enzymatic glucose biosensor with a brief description of how it works. The review describes the utilization of graphene and its composites as new materials for high-performance non-enzymatic glucose biosensors. The electrochemical properties of graphene and the electrochemical characterization using the cyclic voltammetry (CV) technique of electrocatalysis electrodes towards glucose oxidation have been summarized. A recent synthesis method of the graphene-based electrodes for non-enzymatic glucose sensors have been introduced along with this study. Finally, the electrochemical properties such as linearity, sensitivity, and the limit of detection (LOD) for each sensor are introduced with a comparison with each other to figure out their strengths and weaknesses.

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“…Graphene exhibits tremendous potential in advanced electronic devices due to its unique electronic properties [67][68][69][70][71][72][73]. On the other hand, the zero band gap of graphene restricts its application [74,75].…”

Section: The Reasonable Design Of Carbon Sourcesmentioning

confidence: 99%

A brief review for fluorinated carbon: synthesis, properties and applications

Liu

Jiang

Wang

et al. 2019

Nanotechnology Reviews

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Fluorinated carbon (CFx), a thriving member of the carbonaceous derivative, possesses various excellent properties of chemically stable, tunable bandgap, good thermal conductivity and stability, and super-hydrophobic due to its unique structures and polar C-F bonding. Herein, we present a brief review of the recent development of fluorinated carbon materials in terms of structures, properties and preparation techniques. Meanwhile, the applications in energy conversions and storage devices, biomedicines, gas sensors, electronic devices, and microwave absorption devices are also presented. The fluorinated carbon contains various types of C-F bonds including ionic, semi-ionic and covalent C-F, C-F2, C-F3 bonds with tunable F/C ratios. The controllable designing of C-F bonding and F/C ratios play a key role to optimize the properties of fluorinated carbon materials. Until now, the potential issues and future opportunities of fluorinated carbon are proposed. The present review will provide a direction for tuning C-F bonding and F/C ratios, developing a safe and efficient fluorination method and popularizing the applications of fluorinated carbon materials.

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Synthesis and functionalization of graphene and application in electrochemical biosensing

Cited by 29 publications

References 193 publications

Advances in modelling and analysis of nano structures: a review

Advances in modelling and analysis of nano structures: a review

A Brief Description of Cyclic Voltammetry Transducer-Based Non-Enzymatic Glucose Biosensor Using Synthesized Graphene Electrodes

A brief review for fluorinated carbon: synthesis, properties and applications

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