Lignin-Based Carbon Nanomaterials for Biochemical Sensing Applications

Baofang Feng; Weidong Zhao; Min Zhang; Xu Fan; Ting He; Qizhen Luo; Jipeng Yan; Jian Sun

doi:10.1002/asia.202400611

Lignin-Based Carbon Nanomaterials for Biochemical Sensing Applications

Baofang Feng, Weidong Zhao^*, Min Zhang, Xu Fan, Ting He, Qizhen Luo, Jipeng Yan^*, Jian Sun^*

^*此作品的通讯作者

生命学院

Beijing Institute of Technology

科研成果: 期刊稿件 › 文献综述 › 同行评审

摘要

Lignin-based carbon nanomaterials offer several advantages, including biodegradability, biocompatibility, high specific surface area, ease of functionalization, low toxicity, and cost-effectiveness. These materials show promise in biochemical sensing applications, particularly in the detection of metal ions, organic compounds, and human biosignals. Various methods can be employed to synthesize carbon nanomaterials with different dimensions ranging from 0D–3D, resulting in diverse structures and physicochemical properties. This study provides an overview of the preparation techniques and characteristics of multidimensional (0–3D) lignin-based carbon nanomaterials, such as carbon dots (CDs), carbon nanotubes (CNTs), graphene, and carbon aerogels (CAs). Additionally, the sensing capabilities of these materials are compared and summarized, followed by a discussion on the potential challenges and future prospects in sensor development.

源语言	英语
文章编号	e202400611
期刊	Chemistry - An Asian Journal
卷	19
期	19
DOI	https://doi.org/10.1002/asia.202400611
出版状态	已出版 - 1 10月 2024

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Feng, B., Zhao, W., Zhang, M., Fan, X., He, T., Luo, Q., Yan, J., & Sun, J. (2024). Lignin-Based Carbon Nanomaterials for Biochemical Sensing Applications. Chemistry - An Asian Journal, 19(19), 文章 e202400611. https://doi.org/10.1002/asia.202400611

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title = "Lignin-Based Carbon Nanomaterials for Biochemical Sensing Applications",

abstract = "Lignin-based carbon nanomaterials offer several advantages, including biodegradability, biocompatibility, high specific surface area, ease of functionalization, low toxicity, and cost-effectiveness. These materials show promise in biochemical sensing applications, particularly in the detection of metal ions, organic compounds, and human biosignals. Various methods can be employed to synthesize carbon nanomaterials with different dimensions ranging from 0D–3D, resulting in diverse structures and physicochemical properties. This study provides an overview of the preparation techniques and characteristics of multidimensional (0–3D) lignin-based carbon nanomaterials, such as carbon dots (CDs), carbon nanotubes (CNTs), graphene, and carbon aerogels (CAs). Additionally, the sensing capabilities of these materials are compared and summarized, followed by a discussion on the potential challenges and future prospects in sensor development.",

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author = "Baofang Feng and Weidong Zhao and Min Zhang and Xu Fan and Ting He and Qizhen Luo and Jipeng Yan and Jian Sun",

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T1 - Lignin-Based Carbon Nanomaterials for Biochemical Sensing Applications

AU - Feng, Baofang

AU - Zhao, Weidong

AU - Zhang, Min

AU - Fan, Xu

AU - He, Ting

AU - Luo, Qizhen

AU - Yan, Jipeng

AU - Sun, Jian

PY - 2024/10/1

Y1 - 2024/10/1

N2 - Lignin-based carbon nanomaterials offer several advantages, including biodegradability, biocompatibility, high specific surface area, ease of functionalization, low toxicity, and cost-effectiveness. These materials show promise in biochemical sensing applications, particularly in the detection of metal ions, organic compounds, and human biosignals. Various methods can be employed to synthesize carbon nanomaterials with different dimensions ranging from 0D–3D, resulting in diverse structures and physicochemical properties. This study provides an overview of the preparation techniques and characteristics of multidimensional (0–3D) lignin-based carbon nanomaterials, such as carbon dots (CDs), carbon nanotubes (CNTs), graphene, and carbon aerogels (CAs). Additionally, the sensing capabilities of these materials are compared and summarized, followed by a discussion on the potential challenges and future prospects in sensor development.

AB - Lignin-based carbon nanomaterials offer several advantages, including biodegradability, biocompatibility, high specific surface area, ease of functionalization, low toxicity, and cost-effectiveness. These materials show promise in biochemical sensing applications, particularly in the detection of metal ions, organic compounds, and human biosignals. Various methods can be employed to synthesize carbon nanomaterials with different dimensions ranging from 0D–3D, resulting in diverse structures and physicochemical properties. This study provides an overview of the preparation techniques and characteristics of multidimensional (0–3D) lignin-based carbon nanomaterials, such as carbon dots (CDs), carbon nanotubes (CNTs), graphene, and carbon aerogels (CAs). Additionally, the sensing capabilities of these materials are compared and summarized, followed by a discussion on the potential challenges and future prospects in sensor development.

KW - Carbon nanomaterials

KW - Lignin

KW - Preparation

KW - Properties

KW - Sensing

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M3 - Review article

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VL - 19

JO - Chemistry - An Asian Journal

JF - Chemistry - An Asian Journal

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M1 - e202400611

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Lignin-Based Carbon Nanomaterials for Biochemical Sensing Applications

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