Powering up the Future: Radical Polymers for Battery Applications

Our society's dependency on portable electric energy, i.e., rechargeable batteries, which permit power consumption at any place and in any time, will eventually culminate in resource wars on limited commodities like lithium, cobalt, and rare earth metals. The substitution of conventional metals...

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Published inAdvanced materials (Weinheim) Vol. 24; no. 48; pp. 6397 - 6409
Main Authors Janoschka, Tobias, Hager, Martin D., Schubert, Ulrich S.
Format Journal Article
LanguageEnglish
Published Weinheim WILEY-VCH Verlag 18.12.2012
WILEY‐VCH Verlag
Subjects
Electric Power Supplies
Electrochemical Techniques
Electrodes
Free Radicals - chemical synthesis
Free Radicals - chemistry
green batteries
Li-ion battery
Nitrogen Oxides - chemical synthesis
Nitrogen Oxides - chemistry
organic radical battery
polymer battery
Polymers - chemical synthesis
Polymers - chemistry
rechargeable batteries
Online AccessGet full text
ISSN0935-9648
1521-4095
1521-4095
DOI10.1002/adma.201203119

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Abstract Our society's dependency on portable electric energy, i.e., rechargeable batteries, which permit power consumption at any place and in any time, will eventually culminate in resource wars on limited commodities like lithium, cobalt, and rare earth metals. The substitution of conventional metals as means of electric charge storage by organic and polymeric materials, which may ultimately be derived from renewable resources, appears to be the only feasible way out. In this context, the novel class of organic radical batteries (ORBs) excelling in rate capability (i.e., charging speed) and cycling stability (>1000 cycles) sets new standards in battery research. This review examines stable nitroxide radical bearing polymers, their processing to battery systems, and their promising performance. For over a hundred years, rechargeable batteries have facilitated the evolution from a mains‐operated to a mobile society. During this process, our society's dependency on limited resources such as lithium, cobalt, and rare earth metals grew steadily. With the recent development of electroactive nitroxide‐radical‐bearing polymers, a new and seminal class of electrode material is evolving quickly.
AbstractList Our society's dependency on portable electric energy, i.e., rechargeable batteries, which permit power consumption at any place and in any time, will eventually culminate in resource wars on limited commodities like lithium, cobalt, and rare earth metals. The substitution of conventional metals as means of electric charge storage by organic and polymeric materials, which may ultimately be derived from renewable resources, appears to be the only feasible way out. In this context, the novel class of organic radical batteries (ORBs) excelling in rate capability (i.e., charging speed) and cycling stability (>1000 cycles) sets new standards in battery research. This review examines stable nitroxide radical bearing polymers, their processing to battery systems, and their promising performance. For over a hundred years, rechargeable batteries have facilitated the evolution from a mains‐operated to a mobile society. During this process, our society's dependency on limited resources such as lithium, cobalt, and rare earth metals grew steadily. With the recent development of electroactive nitroxide‐radical‐bearing polymers, a new and seminal class of electrode material is evolving quickly.
Our society's dependency on portable electric energy, i.e., rechargeable batteries, which permit power consumption at any place and in any time, will eventually culminate in resource wars on limited commodities like lithium, cobalt, and rare earth metals. The substitution of conventional metals as means of electric charge storage by organic and polymeric materials, which may ultimately be derived from renewable resources, appears to be the only feasible way out. In this context, the novel class of organic radical batteries (ORBs) excelling in rate capability (i.e., charging speed) and cycling stability (>1000 cycles) sets new standards in battery research. This review examines stable nitroxide radical bearing polymers, their processing to battery systems, and their promising performance.
Our society's dependency on portable electric energy, i.e., rechargeable batteries, which permit power consumption at any place and in any time, will eventually culminate in resource wars on limited commodities like lithium, cobalt, and rare earth metals. The substitution of conventional metals as means of electric charge storage by organic and polymeric materials, which may ultimately be derived from renewable resources, appears to be the only feasible way out. In this context, the novel class of organic radical batteries (ORBs) excelling in rate capability (i.e., charging speed) and cycling stability (>1000 cycles) sets new standards in battery research. This review examines stable nitroxide radical bearing polymers, their processing to battery systems, and their promising performance.
Our society's dependency on portable electric energy, i.e., rechargeable batteries, which permit power consumption at any place and in any time, will eventually culminate in resource wars on limited commodities like lithium, cobalt, and rare earth metals. The substitution of conventional metals as means of electric charge storage by organic and polymeric materials, which may ultimately be derived from renewable resources, appears to be the only feasible way out. In this context, the novel class of organic radical batteries (ORBs) excelling in rate capability (i.e., charging speed) and cycling stability (>1000 cycles) sets new standards in battery research. This review examines stable nitroxide radical bearing polymers, their processing to battery systems, and their promising performance.Our society's dependency on portable electric energy, i.e., rechargeable batteries, which permit power consumption at any place and in any time, will eventually culminate in resource wars on limited commodities like lithium, cobalt, and rare earth metals. The substitution of conventional metals as means of electric charge storage by organic and polymeric materials, which may ultimately be derived from renewable resources, appears to be the only feasible way out. In this context, the novel class of organic radical batteries (ORBs) excelling in rate capability (i.e., charging speed) and cycling stability (>1000 cycles) sets new standards in battery research. This review examines stable nitroxide radical bearing polymers, their processing to battery systems, and their promising performance.
Author Schubert, Ulrich S.
Hager, Martin D.
Janoschka, Tobias
Author_xml – sequence: 1
  givenname: Tobias
  surname: Janoschka
  fullname: Janoschka, Tobias
  organization: Laboratory of Organic and Macromolecular Chemistry (IOMC), Friedrich-Schiller-University Jena, Humboldtstr. 10, D-07743 Jena, Germany
– sequence: 2
  givenname: Martin D.
  surname: Hager
  fullname: Hager, Martin D.
  organization: Laboratory of Organic and Macromolecular Chemistry (IOMC), Friedrich-Schiller-University Jena, Humboldtstr. 10, D-07743 Jena, Germany
– sequence: 3
  givenname: Ulrich S.
  surname: Schubert
  fullname: Schubert, Ulrich S.
  email: ulrich.schubert@uni-jena.de
  organization: Laboratory of Organic and Macromolecular Chemistry (IOMC), Friedrich-Schiller-University Jena, Humboldtstr. 10, D-07743 Jena, Germany
BackLink https://www.ncbi.nlm.nih.gov/pubmed/23238940$$D View this record in MEDLINE/PubMed
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2010; 12
2011; 158
2007; 107
2009; 81
1988; 28–30
2002; 359
2008; 37
2011; 52
2011; 196
2008; 185
2011; 111
2003; 10
2008; 184
1993; 5
1977
2007; 28
2009; 11
2010; 22
2007; 178
2010; 20
2012; 1096
1997; 97
2009; 50
2008; 29
2006; 27
2010; 114
2008; 319
2006; 245–246
2011; 22
2010; 195
2011; 23
2009; 19
2012; 22
2012; 66
2008; 350
2009; 15
1983; 22
2003; 44
2007; 19
2005; 150
2006; 52
2004; 104
2009; 21
2011; 2
2011
2010
1967; 89
2007; 165
2007; 163
2011; 40
1992; 39
2008; 14
2009; 210
2011; 33
2002
2011; 4
2011; 6
2007; 13
1987; 18
2003; 33
2004; 10
2012; 50
2010; 43
1987; 20
2004; 50
2012; 112
2010; 46
2001; 6
2004; 16
2007; 154
2008; 49
2010; 211
1977; 10
2007; 40
2008; 41
2011; 47
2005; 2
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2012; 5
2007; 45
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Snippet Our society's dependency on portable electric energy, i.e., rechargeable batteries, which permit power consumption at any place and in any time, will...
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SubjectTerms Electric Power Supplies
Electrochemical Techniques
Electrodes
Free Radicals - chemical synthesis
Free Radicals - chemistry
green batteries
Li-ion battery
Nitrogen Oxides - chemical synthesis
Nitrogen Oxides - chemistry
organic radical battery
polymer battery
Polymers - chemical synthesis
Polymers - chemistry
rechargeable batteries
Title Powering up the Future: Radical Polymers for Battery Applications
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https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fadma.201203119
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Volume 24
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