A biomimetic redox flow battery based on flavin mononucleotide

The versatility in design of redox flow batteries makes them apt to efficiently store energy in large-scale applications at low cost. The discovery of inexpensive organic electroactive materials for use in aqueous flow battery electrolytes is highly attractive, but is thus far limited. Here we repor...

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Published inNature communications Vol. 7; no. 1; p. 13230
Main Authors Orita, Akihiro, Verde, Michael G, Sakai, Masanori, Meng, Ying Shirley
Format Journal Article
LanguageEnglish
Published England Nature Publishing Group 21.10.2016
Nature Portfolio
Subjects
Electrolytes
Energy
Evolution
Salt
Sodium
United States > US
California
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Abstract The versatility in design of redox flow batteries makes them apt to efficiently store energy in large-scale applications at low cost. The discovery of inexpensive organic electroactive materials for use in aqueous flow battery electrolytes is highly attractive, but is thus far limited. Here we report on a flow battery using an aqueous electrolyte based on the sodium salt of flavin mononucleotide. Flavins are highly versatile electroactive molecules, which catalyse a multitude of redox reactions in biological systems. We use nicotinamide (vitamin B3) as a hydrotropic agent to enhance the water solubility of flavin mononucleotide. A redox flow battery using flavin mononucleotide negative and ferrocyanide positive electrolytes in strong base shows stable cycling performance, with over 99% capacity retention over the course of 100 cycles. We hypothesize that this is enabled due to the oxidized and reduced forms of FMN-Na being stabilized by resonance structures.
AbstractList The versatility in design of redox flow batteries makes them apt to efficiently store energy in large-scale applications at low cost. The discovery of inexpensive organic electroactive materials for use in aqueous flow battery electrolytes is highly attractive, but is thus far limited. Here we report on a flow battery using an aqueous electrolyte based on the sodium salt of flavin mononucleotide. Flavins are highly versatile electroactive molecules, which catalyse a multitude of redox reactions in biological systems. We use nicotinamide (vitamin B3) as a hydrotropic agent to enhance the water solubility of flavin mononucleotide. A redox flow battery using flavin mononucleotide negative and ferrocyanide positive electrolytes in strong base shows stable cycling performance, with over 99% capacity retention over the course of 100 cycles. We hypothesize that this is enabled due to the oxidized and reduced forms of FMN-Na being stabilized by resonance structures.
Redox flow batteries using organic active materials are highly sought after because of their potential to satisfy low cost and sustainability requirements. Here, the authors report a biomimetic flow battery based on flavin mononucleotide and a hydrotrope with promising performance characteristics.
The versatility in design of redox flow batteries makes them apt to efficiently store energy in large-scale applications at low cost. The discovery of inexpensive organic electroactive materials for use in aqueous flow battery electrolytes is highly attractive, but is thus far limited. Here we report on a flow battery using an aqueous electrolyte based on the sodium salt of flavin mononucleotide. Flavins are highly versatile electroactive molecules, which catalyse a multitude of redox reactions in biological systems. We use nicotinamide (vitamin B3) as a hydrotropic agent to enhance the water solubility of flavin mononucleotide. A redox flow battery using flavin mononucleotide negative and ferrocyanide positive electrolytes in strong base shows stable cycling performance, with over 99% capacity retention over the course of 100 cycles. We hypothesize that this is enabled due to the oxidized and reduced forms of FMN-Na being stabilized by resonance structures. Redox flow batteries using organic active materials are highly sought after because of their potential to satisfy low cost and sustainability requirements. Here, the authors report a biomimetic flow battery based on flavin mononucleotide and a hydrotrope with promising performance characteristics.
Abstract The versatility in design of redox flow batteries makes them apt to efficiently store energy in large-scale applications at low cost. The discovery of inexpensive organic electroactive materials for use in aqueous flow battery electrolytes is highly attractive, but is thus far limited. Here we report on a flow battery using an aqueous electrolyte based on the sodium salt of flavin mononucleotide. Flavins are highly versatile electroactive molecules, which catalyse a multitude of redox reactions in biological systems. We use nicotinamide (vitamin B3) as a hydrotropic agent to enhance the water solubility of flavin mononucleotide. A redox flow battery using flavin mononucleotide negative and ferrocyanide positive electrolytes in strong base shows stable cycling performance, with over 99% capacity retention over the course of 100 cycles. We hypothesize that this is enabled due to the oxidized and reduced forms of FMN-Na being stabilized by resonance structures.
ArticleNumber 13230
Author Meng, Ying Shirley
Verde, Michael G
Sakai, Masanori
Orita, Akihiro
Author_xml – sequence: 1
  givenname: Akihiro
  surname: Orita
  fullname: Orita, Akihiro
  organization: Core Technology Research &Innovation Center, Hitachi Chemical, 2200, Oka, Fukaya-shi, Saitama 369-0297, Japan
– sequence: 2
  givenname: Michael G
  surname: Verde
  fullname: Verde, Michael G
  organization: Department of NanoEngineering, University of California, San Diego, 9500 Gilman Drive, La Jolla, California 92093, USA
– sequence: 3
  givenname: Masanori
  surname: Sakai
  fullname: Sakai, Masanori
  organization: Core Technology Research &Innovation Center, Hitachi Chemical, 2200, Oka, Fukaya-shi, Saitama 369-0297, Japan
– sequence: 4
  givenname: Ying Shirley
  surname: Meng
  fullname: Meng, Ying Shirley
  organization: Department of NanoEngineering, University of California, San Diego, 9500 Gilman Drive, La Jolla, California 92093, USA
BackLink https://www.ncbi.nlm.nih.gov/pubmed/27767026$$D View this record in MEDLINE/PubMed
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SSID ssj0000391844
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Snippet The versatility in design of redox flow batteries makes them apt to efficiently store energy in large-scale applications at low cost. The discovery of...
Abstract The versatility in design of redox flow batteries makes them apt to efficiently store energy in large-scale applications at low cost. The discovery of...
Redox flow batteries using organic active materials are highly sought after because of their potential to satisfy low cost and sustainability requirements....
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SubjectTerms Electrolytes
Energy
Evolution
Salt
Sodium
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Title A biomimetic redox flow battery based on flavin mononucleotide
URI https://www.ncbi.nlm.nih.gov/pubmed/27767026
https://www.proquest.com/docview/1830696344/abstract/
https://www.proquest.com/docview/1835516311/abstract/
https://pubmed.ncbi.nlm.nih.gov/PMC5078740
https://doaj.org/article/4be4c8164249431082c74baae82d8f2d
Volume 7
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