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作 者:Madan R.Biradar Harshad A.Mirgane Sidhanath V.Bhosale Sheshanath V.Bhosale
机构地区:[1]Polymers and Functional Materials Division,CSIR-Indian Institute of Chemical Technology,Hyderabad 500007,Telangana,India [2]Academy of Scientific and Innovative Research(AcSIR),Ghaziabad 201002,Uttar Pradesh,India [3]Department of Chemistry,School of Chemical Sciences,Central University of Karnataka,Kadaganchi,Kalaburagi 585367,Karnataka,Ind
出 处:《Journal of Energy Chemistry》2024年第12期253-276,共24页能源化学(英文版)
基 金:financial support from The Director, CSIR-IICT (MS No. IICT/Pubs./2024/043) Hyderabad, India;University Grant Commission (UGC) Faculty Research Program, New Delhi, India (F.4-5(50-FRP) (IV-Cycle)/2017(BSR)) for an award of Professorship。
摘 要:As the climate crisis continues to escalate, there has been a growing emphasis on the development of electrode materials that are environmentally friendly and sustainable. Biomolecules, such as proteins,peptides, and amino acids, have emerged as promising alternatives to metal oxide and metal hydroxide-based energy storage systems. These biomolecules offer several advantages, such as high safety, non-toxicity, abundant raw material sources, and ease of device fabrication. In this review, we highlighted the recent advancements in amino acid, peptide, and protein-based materials for lithiumion batteries, supercapacitors, and fuel cells. We delve into the synthetic strategies employed and their impact on factors such as active potential window, solubility in the electrolyte, and electrochemical performance. Our focus is on the development, composition, and performance of biomolecules, as well as the various approaches taken for their application in batteries, supercapacitors, and fuel cells. Finally, we discuss key considerations that must be taken into account to promote the design, synthesis and development for future practical applications of lithium-ion batteries, supercapacitors, and fuel cells.
关 键 词:Amino acid Battery Electrolytes PEPTIDE PROTEIN SUPERCAPACITOR Fuel cell
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