Green method for glucose determination using microfluidic device with a non-enzymatic sensor based on nickel oxyhydroxide supported at activated biochar

Kalinke, Cristiane; Wosgrau, Vanessa; Oliveira, Paulo Roberto de; Oliveira, Geovane A.; Martins, Gustavo Celestino; Mangrich, Antônio S.; Bergamini, Márcio F.; Marcolino‐Júnior, Luiz H.

doi:10.1016/j.talanta.2019.03.079

Cited by 47 publications

(16 citation statements)

References 41 publications

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“…Biochar’s porous structure gives it a larger specific surface area for absorbing target analyte and carrying or loading various activate molecules or materials, such as copper hexacyanoferrate [ 9 ], Fe 3 O 4 [ 35 ], MoSe 2 [ 36 ], and nickel hydroxide [ 37 ]. These materials’ good properties in various aspects of spatial structure, redox ability, magnetism, or conductivity enhance and improve the analytical performance of biochar-based sensors.…”

Section: The Role Of Biochar In the Fabrication Of Electrochemical Se...mentioning

confidence: 99%

“…Using biochar’s carrier and catalytic capacities, Kalinke et al, fabricated a non-enzymatic electrochemical biosensor based on nickel oxyhydroxide supported by activated biochar in the detection of glucose in human saliva and blood serum [ 37 ]. Moreover, the sensing platform was assembled as a microfluidic device, which was a plastic platform that was printed using a 3D printer.…”

Section: The Application Of Electrochemical Sensors and Biosensors Ba...mentioning

confidence: 99%

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Recent Advances of Biochar-Based Electrochemical Sensors and Biosensors

Wang

et al. 2022

Biosensors

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In the context of accelerating the global realization of carbon peaking and carbon neutralization, biochar produced from biomass feedstock via a pyrolysis process has been more and more focused on by people from various fields. Biochar is a carbon-rich material with good properties that could be used as a carrier, a catalyst, and an absorbent. Such properties have made biochar a good candidate as a base material in the fabrication of electrochemical sensors or biosensors, like carbon nanotube and graphene. However, the study of the applications of biochar in electrochemical sensing technology is just beginning; there are still many challenges to be conquered. In order to better carry out this research, we reviewed almost all of the recent papers published in the past 5 years on biochar-based electrochemical sensors and biosensors. This review is different from the previously published review papers, in which the types of biomass feedstock, the preparation methods, and the characteristics of biochar were mainly discussed. First, the role of biochar in the fabrication of electrochemical sensors and biosensors is summarized. Then, the analytes determined by means of biochar-based electrochemical sensors and biosensors are discussed. Finally, the perspectives and challenges in applying biochar in electrochemical sensors and biosensors are provided.

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Section: The Role Of Biochar In the Fabrication Of Electrochemical Se...mentioning

confidence: 99%

Section: The Application Of Electrochemical Sensors and Biosensors Ba...mentioning

confidence: 99%

Recent Advances of Biochar-Based Electrochemical Sensors and Biosensors

Wang

et al. 2022

Biosensors

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“…The dispersion of filler facilitated the molecular diffusion across the bond interface. Kalinke et al 291 used nickel oxyhydroxide supported activated biochar to fabricate an electrode which was coupled with a electroanalytical device for the determination of non-enzymatic glucose. Castor oil cake was pyrolyzed at 400 °C in the presence of nitric acid to produce biochar, which increased surface area, functional groups, and porosity.…”

Section: Traditional Plastics In Additive Manufacturingmentioning

confidence: 99%

Additive manufacturing technology of polymeric materials for customized products: recent developments and future prospective

2021

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“…Several authors have described the use of biochar-derived materials for biosensing. Kalinke et al [348] pyrolyzed nitric acid-treated castor oil cake at 400 • C and tailored it with Ni(OH) 2 /NiOOH for the realization of non-enzymatic glucose electrode. Alternatively, Martins et al [349] developed an immunoassay for hantavirus detection that was based on a biochar platform with a range of work from 5 ng/mL to 1.0 µg/mL.…”

Section: Other Uses Of Biocharmentioning

confidence: 99%

A Review of Non-Soil Biochar Applications

et al. 2020

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Biochar is the solid residue that is recovered after the thermal cracking of biomasses in an oxygen-free atmosphere. Biochar has been used for many years as a soil amendment and in general soil applications. Nonetheless, biochar is far more than a mere soil amendment. In this review, we report all the non-soil applications of biochar including environmental remediation, energy storage, composites, and catalyst production. We provide a general overview of the recent uses of biochar in material science, thus presenting this cheap and waste-derived material as a high value-added and carbonaceous source.

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Green method for glucose determination using microfluidic device with a non-enzymatic sensor based on nickel oxyhydroxide supported at activated biochar

Cited by 47 publications

References 41 publications

Recent Advances of Biochar-Based Electrochemical Sensors and Biosensors

Recent Advances of Biochar-Based Electrochemical Sensors and Biosensors

Additive manufacturing technology of polymeric materials for customized products: recent developments and future prospective

A Review of Non-Soil Biochar Applications

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