Nitrogen-containing three-dimensional biomass porous carbon materials as an efficient enzymatic biosensing platform for glucose sensing

Shan, Baixi; Ji, Yanhua; Zhong, You-Bao; Chen, Lai; Li, Shanshan; Zhang, Jie; Chen, Liling; Li, Xuan; Chen, Yuan; Yan, Nan; Song, Yonggui

doi:10.1039/c9ra04008k

Cited by 17 publications

(10 citation statements)

References 54 publications

(55 reference statements)

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“…Shan et al prepared a glucose biosensor based on glucose oxidase (GOD)-anchored 3D porous cane vine stem-derived carbon. [394] The 3D porous structure of the carbon matrix offers more implantation sites for the immobilization of GOD, leading to a high sensitivity of 8.617 μA mm −1 and quite a low LoD of 0.19 μM. Guo et al developed a biosensor based on skin tissue of tamarind seedcasederived carbon materials (TS-HTC) for sensing hydrogen peroxide (H 2 O 2 ), a type of reactive oxygen species, which can cause cytopathic effects by invading other cellular compartments.…”

Section: Applications In Sensorsmentioning

confidence: 99%

Functional Carbon from Nature: Biomass‐Derived Carbon Materials and the Recent Progress of Their Applications

Zhang

et al. 2023

Advanced Science

100

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Biomass is considered as a promising source to fabricate functional carbon materials for its sustainability, low cost, and high carbon content. Biomass-derived-carbon materials (BCMs) have been a thriving research field. Novel structures, diverse synthesis methods, and versatile applications of BCMs have been reported. However, there has been no recent review of the numerous studies of different aspects of BCMs-related research. Therefore, this paper presents a comprehensive review that summarizes the progress of BCMs related research. Herein, typical types of biomass used to prepare BCMs are introduced. Variable structures of BCMs are summarized as the performance and properties of BCMs are closely related to their structures. Representative synthesis strategies, including both their merits and drawbacks are reviewed comprehensively. Moreover, the influence of synthetic conditions on the structure of as-prepared carbon products is discussed, providing important information for the rational design of the fabrication process of BCMs. Recent progress in versatile applications of BCMs based on their morphologies and physicochemical properties is reported. Finally, the remaining challenges of BCMs, are highlighted. Overall, this review provides a valuable overview of current knowledge and recent progress of BCMs, and it outlines directions for future research development of BCMs.

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Section: Applications In Sensorsmentioning

confidence: 99%

Functional Carbon from Nature: Biomass‐Derived Carbon Materials and the Recent Progress of Their Applications

Zhang

et al. 2023

Advanced Science

100

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“…Several porous carbon materials have been employed to immobilize redox proteins and enzymes, where a paradigm of biospecies applies the use of glucose oxidase (GOD) immobilized on the porous carbon-based electrode surface towards glucose biosensing. 76–80 Recently, Shan and co-workers 81 reported an elegant biosensor based on a carbonaceous support for loading GOD enzymes. They prepared a carbonaceous material (named as 3D-CVS) by the carbonization of a dried cane vine stem from Wisteria plant, and a cylindrical morphology of carbon material with a three-dimensional micro-, macroporous structure was obtained.…”

Section: Carbon Materials For Sensing Applicationsmentioning

confidence: 99%

Recent progress in the development of porous carbon-based electrodes for sensing applications

Casanova

Iniesta

Gomis‐Berenguer

2022

Analyst

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“…a) The timeline for the development of BC for electrochemical sensors. [ 27,28,37–42 ] The performance improvement diagrams of BC‐based materials in b) DA, [ 16,24,43–49 ] c) Pt 2+ , [ 38,41,50–56 ] and d) H 2 O 2 [ 23–25,28,57–61 ] in recent years. e) Comparison of the sensing performance of BC‐based modified materials for DA, Pt 2+ , and AP.…”

Section: Introductionmentioning

confidence: 99%

3D Biomass‐Derived Carbon Materials for Electrochemical Biosensors

Li,

Zhou,

Xiao

et al. 2023

Adv Materials Technologies

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Abstract3D biomass‐derived carbon (3D‐BC) materials are widely developed for various electrochemical sensors due to their structural diversity and high electrical conductivity, and are gradually experiencing their most prosperous moment. A timely and comprehensive review of structure‐strategy‐property will greatly broaden this research field. In this paper, the mechanism of biomass‐derived carbon conversion is presented and the recent progress of 3D‐BC materials for constructing high‐performance electrochemical sensors, including biomass sources, carbonization methods, and synthesis strategies for 3D‐BC is summarized, as well as their applications in different electrochemical sensors are reviewed. Finally, the challenges and opportunities for the future development of biomass‐derived carbon (BC) materials are emphasized. In conclusion, this review will assist researchers in selecting suitable precursors and strategies to design BC materials and facilitate their application in future electrochemical sensors.

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Nitrogen-containing three-dimensional biomass porous carbon materials as an efficient enzymatic biosensing platform for glucose sensing

Abstract: Schematic illustration of the fabrication and structure of the 3D-CVS/GOD electrode.

Cited by 17 publications

References 54 publications

Functional Carbon from Nature: Biomass‐Derived Carbon Materials and the Recent Progress of Their Applications

Functional Carbon from Nature: Biomass‐Derived Carbon Materials and the Recent Progress of Their Applications

Recent progress in the development of porous carbon-based electrodes for sensing applications

3D Biomass‐Derived Carbon Materials for Electrochemical Biosensors

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