Aromatic Carbonyl Derivative Polymers as High‐Performance Li‐Ion Storage Materials
10.1002/adma.200602584
Crossref journal-article
Wiley
Advanced Materials (311)
Bibliography

Han, X., Chang, C., Yuan, L., Sun, T., & Sun, J. (2007). Aromatic Carbonyl Derivative Polymers as High‐Performance Li‐Ion Storage Materials. Advanced Materials, 19(12), 1616–1621. Portico.

Authors 5
  1. X. Han (first)
  2. C. Chang (additional)
  3. L. Yuan (additional)
  4. T. Sun (additional)
  5. J. Sun (additional)
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  28. For P500 plate the calculated apparent conductivity is about 3.1 × 10–5 S cm–1 which may be much lower than the real value of the bulk material because of the large contact resistance between sample particles. It implies a good conductivity that is comparable to or higher than the conventional inorganic positive‐electrode materials (e.g. LiCoO2 ∼ 10–3 S cm–1 and LiMn2O4 ∼ 10–5 S cm–1 for all of which sintered samples were used to measure the conductivity and thus the contact resistance between the particles could be eliminated).
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Dates
Type When
Created 18 years, 3 months ago (May 15, 2007, 9:33 a.m.)
Deposited 1 year, 9 months ago (Nov. 20, 2023, 7:08 p.m.)
Indexed 1 week, 1 day ago (Aug. 21, 2025, 1:27 p.m.)
Issued 18 years, 3 months ago (May 15, 2007)
Published 18 years, 3 months ago (May 15, 2007)
Published Online 18 years, 3 months ago (May 15, 2007)
Published Print 18 years, 2 months ago (June 18, 2007)
Funders 0

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@article{Han_2007, title={Aromatic Carbonyl Derivative Polymers as High‐Performance Li‐Ion Storage Materials}, volume={19}, ISSN={1521-4095}, url={http://dx.doi.org/10.1002/adma.200602584}, DOI={10.1002/adma.200602584}, number={12}, journal={Advanced Materials}, publisher={Wiley}, author={Han, X. and Chang, C. and Yuan, L. and Sun, T. and Sun, J.}, year={2007}, month=may, pages={1616–1621} }