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Real-Time Monitoring of Cation Dissolution/Deintercalation Kinetics from Transition-Metal Oxides in Organic Environments.
Lopes, Pietro P; Zorko, Milena; Hawthorne, Krista L; Connell, Justin G; Ingram, Brian J; Strmcnik, Dusan; Stamenkovic, Vojislav R; Markovic, Nenad M.
Affiliation
  • Lopes PP; Materials Science Division , Argonne National Laboratory , 9700 South Cass Avenue , Lemont , Illinois 60439 , United States.
  • Zorko M; Joint Center for Energy Storage Research , Argonne National Laboratory , 9700 South Cass Avenue , Lemont , Illinois 60439 , United States.
  • Hawthorne KL; Materials Science Division , Argonne National Laboratory , 9700 South Cass Avenue , Lemont , Illinois 60439 , United States.
  • Connell JG; Joint Center for Energy Storage Research , Argonne National Laboratory , 9700 South Cass Avenue , Lemont , Illinois 60439 , United States.
  • Ingram BJ; Joint Center for Energy Storage Research , Argonne National Laboratory , 9700 South Cass Avenue , Lemont , Illinois 60439 , United States.
  • Strmcnik D; Chemical Science and Engineering Division , Argonne National Laboratory , 9700 South Cass Avenue , Lemont , Illinois 60439 , United States.
  • Stamenkovic VR; Joint Center for Energy Storage Research , Argonne National Laboratory , 9700 South Cass Avenue , Lemont , Illinois 60439 , United States.
  • Markovic NM; Joint Center for Energy Storage Research , Argonne National Laboratory , 9700 South Cass Avenue , Lemont , Illinois 60439 , United States.
J Phys Chem Lett ; 9(17): 4935-4940, 2018 Sep 06.
Article in En | MEDLINE | ID: mdl-30058338
ABSTRACT
The future of high-voltage rechargeable batteries is closely tied to the fundamental understanding of the processes that lead to the potential-dependent degradation of electrode materials and organic electrolytes. To date, however, there have been no methods able to provide quantitative, in situ and in real time information about the electrode dissolution kinetics and concomitant electrolyte decomposition during charge/discharge. We describe the development of such a method, which is of both fundamental and technological significance. Our novel approach enables simultaneous and independent measurements of transition-metal cation dissolution rates from different oxide hosts (Co3+/4+ or Cr3+/4+), deintercalation kinetics of working cations (Mg2+), and the relative rate of electrolyte decomposition.
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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: J Phys Chem Lett Year: 2018 Document type: Article Affiliation country:
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Add to My VHL
Print
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Full text: 1 Collection: 01-internacional Database: MEDLINE Language: En Journal: J Phys Chem Lett Year: 2018 Document type: Article Affiliation country: