Cui-e Zhao scite author profile

During the past decade, biofuel cells (BFCs) have emerged as an emerging technology on account of their ability to directly generate electricity from biologically renewable catalysts and fuels. Due to the boost in nanotechnology, significant advances have been accomplished in BFCs. Although it is still challenging to promote the performance of BFCs, adopting nanostructured materials for BFC construction has been extensively proposed as an effective and promising strategy to achieve high energy production. In this review, we presented the major novel nanostructured materials applied for BFCs and highlighted the breakthroughs in this field. Based on different natures of the bio-catalysts and electron transfer process at the bio-electrode surfaces, the fundamentals of BFC systems, including enzymatic biofuel cells (EBFCs) and microbial fuel cells (MFCs), have been elucidated. In particular, the principle of electrode materials design has been detailed in terms of enhancing electrical communications between biological catalysts and electrodes. Furthermore, we have provided the applications of BFCs and potential challenges of this technology.

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Employing a Flexible and Low‐Cost Polypyrrole Nanotube Membrane as an Anode to Enhance Current Generation in Microbial Fuel Cells

Zhao

Kjelleberg

et al. 2015

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141

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Nanostructured Conjugated Polymers for Energy‐Related Applications beyond Solar Cells

Xie

Zhao

Lin

et al. 2016

Chemistry An Asian Journal

139

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To meet the ever-increasing requirements for the next generation of sustainable and versatile energy-related devices, conjugated polymers, which have potential advantages over small molecules and inorganic materials, are among the most promising types of green candidates. The properties of conjugated polymers can be tuned through modification of the structure and incorporation of different functional moieties. In addition, superior performances can be achieved as a result of the advantages of nanostructures, such as their large surface areas and the shortened pathways for charge transfer. Therefore, nanostructured conjugated polymers with different properties can be obtained to be applied in different energy-related organic devices. This review focuses on the application and performance of the recently reported nanostructured conjugated polymers for high-performance devices, including rechargeable lithium batteries, microbial fuel cells (MFCs), thermoelectric generators, and photocatalytic systems. The design strategies, reaction mechanisms, advantages, and limitations of nanostructured conjugated polymers are further discussed in each section. Finally, possible routes to improve the performances of the current systems are also included in the conclusion.

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Polyaniline networks grown on graphene nanoribbons-coated carbon paper with a synergistic effect for high-performance microbial fuel cells

et al. 2013

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Microbial fuel cells (MFCs) show promise as a technology for electricity generation from waste, and their performance critically depends on the electrode materials and their structures. Herein, a novel MFC anode was fabricated by electro-depositing polyaniline (PANI) networks onto graphene nanoribbons (GNRs)-coated carbon paper (CP/GNRs/PANI). This anode provides a large surface area for the attachment of bacterial cells and high conductivity to facilitate extracellular electron transfer (EET) from microbes to the electrode. Results showed that the anodic current density and power density of the CP/ GNRs/PANI anode were much higher than those of each individual component as anode, indicating the synergistic effect between PANI and GNRs.

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3D graphene/ZnO composite with enhanced photocatalytic activity

et al. 2016

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Cui-e Zhao

Nanostructured material-based biofuel cells: recent advances and future prospects

Employing a Flexible and Low‐Cost Polypyrrole Nanotube Membrane as an Anode to Enhance Current Generation in Microbial Fuel Cells

Nanostructured Conjugated Polymers for Energy‐Related Applications beyond Solar Cells

Polyaniline networks grown on graphene nanoribbons-coated carbon paper with a synergistic effect for high-performance microbial fuel cells

3D graphene/ZnO composite with enhanced photocatalytic activity

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