Biochar-based materials for electroanalytical applications: An overview

•Unique properties of biochar-based materials enhance electroanalytical applications.•Potential use in sensors and biosensors promotes sustainable technologies.•Addressing reproducibility and conductivity challenges can increase industry adoption.•Multifunctional hybrid materials and wearable device...

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Published inGreen Analytical Chemistry Vol. 7; p. 100081
Main Authors Zheng, Yuhong, Yu, Chaoguang, Fu, Li
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.12.2023
Elsevier
Subjects
Biochar
Biosensors
Electroanalytical applications
Electrochemical devices
Sustainability
Electroanalytical applications
Electrochemical devices
Biochar
Biosensors
Sustainability
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Abstract •Unique properties of biochar-based materials enhance electroanalytical applications.•Potential use in sensors and biosensors promotes sustainable technologies.•Addressing reproducibility and conductivity challenges can increase industry adoption.•Multifunctional hybrid materials and wearable devices offer novel opportunities.•Comprehensive life-cycle assessment and regulations ensure sustainable and safe use. Biochar-based materials, derived from renewable biomass resources, have emerged as promising candidates for electroanalytical applications due to their unique physicochemical properties, such as high surface area, excellent biocompatibility, and good chemical stability. This review provides a comprehensive overview of recent advancements in the development and application of biochar-based materials in electrochemical devices, including sensors, energy storage, and catalysis. We discuss the synthesis and functionalization of biochar materials, focusing on the effects of feedstock and pyrolysis conditions on their properties. The applications of biochar-based materials in electrochemical devices are reviewed, with a particular emphasis on enzyme-based biosensors, DNA-based biosensors, and immunosensors. Despite their promising performance, challenges such as reproducibility, electrical conductivity, and long-term stability need to be addressed to facilitate their widespread adoption in the industry. We also discuss emerging trends, such as the development of multifunctional hybrid materials and integration into flexible devices. Finally, we highlight the importance of policy, regulatory aspects, and environmental assessments to ensure the safe and sustainable use of biochar-based materials in electroanalytical applications.
AbstractList •Unique properties of biochar-based materials enhance electroanalytical applications.•Potential use in sensors and biosensors promotes sustainable technologies.•Addressing reproducibility and conductivity challenges can increase industry adoption.•Multifunctional hybrid materials and wearable devices offer novel opportunities.•Comprehensive life-cycle assessment and regulations ensure sustainable and safe use. Biochar-based materials, derived from renewable biomass resources, have emerged as promising candidates for electroanalytical applications due to their unique physicochemical properties, such as high surface area, excellent biocompatibility, and good chemical stability. This review provides a comprehensive overview of recent advancements in the development and application of biochar-based materials in electrochemical devices, including sensors, energy storage, and catalysis. We discuss the synthesis and functionalization of biochar materials, focusing on the effects of feedstock and pyrolysis conditions on their properties. The applications of biochar-based materials in electrochemical devices are reviewed, with a particular emphasis on enzyme-based biosensors, DNA-based biosensors, and immunosensors. Despite their promising performance, challenges such as reproducibility, electrical conductivity, and long-term stability need to be addressed to facilitate their widespread adoption in the industry. We also discuss emerging trends, such as the development of multifunctional hybrid materials and integration into flexible devices. Finally, we highlight the importance of policy, regulatory aspects, and environmental assessments to ensure the safe and sustainable use of biochar-based materials in electroanalytical applications.
Biochar-based materials, derived from renewable biomass resources, have emerged as promising candidates for electroanalytical applications due to their unique physicochemical properties, such as high surface area, excellent biocompatibility, and good chemical stability. This review provides a comprehensive overview of recent advancements in the development and application of biochar-based materials in electrochemical devices, including sensors, energy storage, and catalysis. We discuss the synthesis and functionalization of biochar materials, focusing on the effects of feedstock and pyrolysis conditions on their properties. The applications of biochar-based materials in electrochemical devices are reviewed, with a particular emphasis on enzyme-based biosensors, DNA-based biosensors, and immunosensors. Despite their promising performance, challenges such as reproducibility, electrical conductivity, and long-term stability need to be addressed to facilitate their widespread adoption in the industry. We also discuss emerging trends, such as the development of multifunctional hybrid materials and integration into flexible devices. Finally, we highlight the importance of policy, regulatory aspects, and environmental assessments to ensure the safe and sustainable use of biochar-based materials in electroanalytical applications.
ArticleNumber 100081
Author Fu, Li
Zheng, Yuhong
Yu, Chaoguang
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  surname: Zheng
  fullname: Zheng, Yuhong
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  givenname: Chaoguang
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  surname: Fu
  fullname: Fu, Li
  email: fuli@hdu.edu.cn
  organization: College of Materials and Environmental Engineering, Hangzhou Dianzi University, Hangzhou 310018, China
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Keywords Electroanalytical applications
Electrochemical devices
Biochar
Biosensors
Sustainability
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Snippet •Unique properties of biochar-based materials enhance electroanalytical applications.•Potential use in sensors and biosensors promotes sustainable...
Biochar-based materials, derived from renewable biomass resources, have emerged as promising candidates for electroanalytical applications due to their unique...
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SubjectTerms Biochar
Biosensors
Electroanalytical applications
Electrochemical devices
Sustainability
Title Biochar-based materials for electroanalytical applications: An overview
URI https://dx.doi.org/10.1016/j.greeac.2023.100081
https://doaj.org/article/1f3a1655adfd4534929742f5f93c6313
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