1. A review: Evolution of enzymatic biofuel cells.
- Author
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Haque, Sufia ul, Duteanu, Narcis, Ciocan, Stefania, Nasar, Abu, and Inamuddin
- Subjects
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ENERGY harvesting , *BIOMASS energy , *ENERGY consumption , *CONDUCTING polymers , *ALTERNATIVE fuels , *SUSTAINABILITY , *SUSTAINABLE development reporting - Abstract
Ever-growing demands for energy, the unsustainability of fossil fuel due to its scarcity and massive impact on global economies and the environment, have encouraged the research on alternative power sources to work upon for the governments, companies, and scientists across the world. Enzymatic biofuel cells (eBFCs) is one category of fuel cell that can harvest energy from biological moieties and has the future to be used as an alternative source of energy. The aim of this review is to summarize the background and state-of-the-art in the field of eBFCs. This review article will be very beneficial for a wide audience including students and new researchers in the field. A part of the paper summarized the challenges in the preparation of anode and cathode and the involvement of nanomaterials and conducting polymers to construct the effective bioelectrodes. It will provide an insight for the researchers working in this challenging field. Furthermore, various applications of eBFCs in implantable power devices, tiny electronic gadgets, and self powered biosensors are reported. This review article explains the development in the area of eBFCs for several years from its origin to growth systematically. It reveals the strategies that have been taken for the improvements required for the better electrochemical performance and operational stability of eBFCs. It also mentions the challenges in this field that will require proper attention so that the eBFCs can be utilized commercially in the future. The review article is written and structurized in a way so that it can provide a decent background of eBFCs to its reader. It will definitely help in enhancing the interest of reader in eBFCs. [Display omitted] • A general introduction along with the background and advances in the field of eBFCs are explained. • The challenges in the preparation of anode and cathode for the employment in eBFCs are mentioned. • Enzyme immobilization and stabilization at surface of electrode via Physical adsorption, Covalent binding, Entrapment, and Cross-linking are reported with example with their advantages and disadvantages. • Bioelectrode preparation from nanomaterials and conducting polymers are explained. • Summarized the current improvement in eBFCs along with their potential applications in implantable biomedical devices. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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