Ion Structure Transition Enhances Charging Dynamics in Subnanometer Pores

by Mo, T., Bi, S., Zhang, Y., Presser, V., Wang, X., Gogotsi, Y. and Feng, G.
View PDF
Reference:
T. Mo, S. Bi, Y. Zhang, V. Presser, X. Wang, Y. Gogotsi, and G. Feng, "Ion Structure Transition Enhances Charging Dynamics in Subnanometer Pores", ACS Nano, vol. 14, no. 2, 2020, pp. 2395.
Bibtex Entry:
@article{673,
   author = {Mo, T. and Bi, S. and Zhang, Y. and Presser, V. and Wang, X. and Gogotsi, Y. and Feng, G.},
   title = {Ion Structure Transition Enhances Charging Dynamics in Subnanometer Pores},
   journal = {ACS Nano},
   volume = {14},
   number = {2},
   pages = {2395},
   ISSN = {1936-086X (Electronic)
1936-0851 (Linking)},
   DOI = {10.1021/acsnano.9b09648},
   year = {2020},
   date= {02/25}
   type = {Journal Article},
   url = https://nano.materials.drexel.edu/wp-content/papercite-data/pdf/673.pdf
}

Ion Structure Transition Enhances Charging Dynamics in Subnanometer Pores

Drexel University

NanoArtography Competition

DNI 2023 Calendar

Contact Information

  • Drexel University
    Materials Science & Engineering
  • 3141 Chestnut Street (LeBow 344)
  • Philadelphia, PA 19104
  • U.S.A.

A.J. Nanomaterials Institute Office: CAT 383

Prof. Yury Gogotsi – gogotsi@drexel.edu

Facebook Twitter Instagram Youtube Tiktok

Copyright © 2023 A.J. Nanomaterials Institute.