Óxido de litio y cobalto (Spanish Wikipedia)

Analysis of information sources in references of the Wikipedia article "Óxido de litio y cobalto" in Spanish language version.

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12doi.org

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2harvard.edu

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1nist.gov

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1unt.edu

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1iop.org

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1nrel.gov

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diytrade.com

LinYi Gelon New Battery Materials Co., Ltd, "Lithium Cobalt Oxide (LiCoO2) for lithium ion battery ". Catalog entry, accessed on 2018-04-10,

doi.org

dx.doi.org

A. L. Emelina, M. A. Bykov, M. L. Kovba, B. M. Senyavin, E. V. Golubina (2011), "Thermochemical properties of lithium cobaltate". Russian Journal of Physical Chemistry, volume 85, issue 3, pages 357–363; doi 10.1134/S0036024411030071
Ondřej Jankovský, Jan Kovařík, Jindřich Leitner, Květoslav Růžička, David Sedmidubský (2016) "Thermodynamic properties of stoichiometric lithium cobaltite LiCoO2". Thermochimica Acta, volume 634, pages 26-30. doi 10.1016/j.tca.2016.04.018
I. Nakai; K. Takahashi; Y. Shiraishi; T. Nakagome; F. Izumi; Y. Ishii; F. Nishikawa; T. Konishi (1997). «X-ray absorption fine structure and neutron diffraction analyses of de-intercalation behavior in the LiCoO2 and LiNiO2 systems». Journal of Power Sources 68 (2): 536-539. Bibcode:1997JPS....68..536N. doi:10.1016/S0378-7753(97)02598-6.
Shao-Horn, Yang; Croguennec, Laurence; Delmas, Claude; Nelson, E. Chris; O'Keefe, Michael A. (July 2003). «Atomic resolution of lithium ions in LiCoO
2». Nature Materials 2 (7): 464-467. PMID 12806387. S2CID 34357573. doi:10.1038/nmat922.
H. J. Orman; P. J. Wiseman (January 1984). «Cobalt(III) lithium oxide, CoLiO
2: structure refinement by powder neutron diffraction». Acta Crystallographica Section C 40 (1): 12-14. doi:10.1107/S0108270184002833.
Qi, Zhaoxiang (August 2016). «High-Performance LiCoO2 Sub-Micrometer Materials from Scalable Microparticle Template Processing». ChemistrySelect 1 (13): 3992-3999. doi:10.1002/slct.201600872.
Tang, W.; Liu, L. L.; Tian, S.; Li, L.; Yue, Y. B.; Wu, Y. P.; Guan, S. Y.; Zhu, K. (1 de noviembre de 2010). «Nano-LiCoO2 as cathode material of large capacity and high rate capability for aqueous rechargeable lithium batteries». Electrochemistry Communications 12 (11): 1524-1526. doi:10.1016/j.elecom.2010.08.024.
Qi, Zhaoxiang; Koenig, Gary M. (16 de agosto de 2016). «High-Performance LiCoO2Sub-Micrometer Materials from Scalable Microparticle Template Processing». ChemistrySelect (en inglés) 1 (13): 3992-3999. ISSN 2365-6549. doi:10.1002/slct.201600872.
K. Mizushima, P. C. Jones, P. J. Wiseman, J. B. Goodenough (1980), "Li
xCoO
2 (0<x<1): A New Cathode Material for Batteries of High Energy Density". Materials Research Bulletin, volume 15, pages 783–789. doi 10.1016/0025-5408(80)90012-4
Oswald, Stefan; Gasteiger, Hubert A. (1 de marzo de 2023). «The Structural Stability Limit of Layered Lithium Transition Metal Oxides Due to Oxygen Release at High State of Charge and Its Dependence on the Nickel Content». Journal of The Electrochemical Society 170 (3): 030506. ISSN 0013-4651. doi:10.1149/1945-7111/acbf80.
Warner, John T. (1 de enero de 2019), «Chapter 8 - The materials», en Warner, John T., ed., Lithium-Ion Battery Chemistries (en inglés) (Elsevier): 171-217, ISBN 978-0-12-814778-8, S2CID 239383589, doi:10.1016/b978-0-12-814778-8.00008-9, consultado el 2 de abril de 2023 .
Oswald, Stefan; Gasteiger, Hubert A. (1 de marzo de 2023). «The Structural Stability Limit of Layered Lithium Transition Metal Oxides Due to Oxygen Release at High State of Charge and Its Dependence on the Nickel Content». Journal of the Electrochemical Society 170 (3): 030506. Bibcode:2023JElS..170c0506O. ISSN 0013-4651. S2CID 258406065. doi:10.1149/1945-7111/acbf80.

harvard.edu

adsabs.harvard.edu

I. Nakai; K. Takahashi; Y. Shiraishi; T. Nakagome; F. Izumi; Y. Ishii; F. Nishikawa; T. Konishi (1997). «X-ray absorption fine structure and neutron diffraction analyses of de-intercalation behavior in the LiCoO2 and LiNiO2 systems». Journal of Power Sources 68 (2): 536-539. Bibcode:1997JPS....68..536N. doi:10.1016/S0378-7753(97)02598-6.
Oswald, Stefan; Gasteiger, Hubert A. (1 de marzo de 2023). «The Structural Stability Limit of Layered Lithium Transition Metal Oxides Due to Oxygen Release at High State of Charge and Its Dependence on the Nickel Content». Journal of the Electrochemical Society 170 (3): 030506. Bibcode:2023JElS..170c0506O. ISSN 0013-4651. S2CID 258406065. doi:10.1149/1945-7111/acbf80.

iop.org

iopscience.iop.org

Oswald, Stefan; Gasteiger, Hubert A. (1 de marzo de 2023). «The Structural Stability Limit of Layered Lithium Transition Metal Oxides Due to Oxygen Release at High State of Charge and Its Dependence on the Nickel Content». Journal of The Electrochemical Society 170 (3): 030506. ISSN 0013-4651. doi:10.1149/1945-7111/acbf80.

issn.org

portal.issn.org

Qi, Zhaoxiang; Koenig, Gary M. (16 de agosto de 2016). «High-Performance LiCoO2Sub-Micrometer Materials from Scalable Microparticle Template Processing». ChemistrySelect (en inglés) 1 (13): 3992-3999. ISSN 2365-6549. doi:10.1002/slct.201600872.
Oswald, Stefan; Gasteiger, Hubert A. (1 de marzo de 2023). «The Structural Stability Limit of Layered Lithium Transition Metal Oxides Due to Oxygen Release at High State of Charge and Its Dependence on the Nickel Content». Journal of The Electrochemical Society 170 (3): 030506. ISSN 0013-4651. doi:10.1149/1945-7111/acbf80.
Oswald, Stefan; Gasteiger, Hubert A. (1 de marzo de 2023). «The Structural Stability Limit of Layered Lithium Transition Metal Oxides Due to Oxygen Release at High State of Charge and Its Dependence on the Nickel Content». Journal of the Electrochemical Society 170 (3): 030506. Bibcode:2023JElS..170c0506O. ISSN 0013-4651. S2CID 258406065. doi:10.1149/1945-7111/acbf80.

nih.gov

ncbi.nlm.nih.gov

Shao-Horn, Yang; Croguennec, Laurence; Delmas, Claude; Nelson, E. Chris; O'Keefe, Michael A. (July 2003). «Atomic resolution of lithium ions in LiCoO
2». Nature Materials 2 (7): 464-467. PMID 12806387. S2CID 34357573. doi:10.1038/nmat922.

nist.gov

webbook.nist.gov

Número CAS

nrel.gov

Doughty, Daniel; Pesaran, Ahmad. «Vehicle Battery Safety Roadmap Guidance». National Renewable Energy Laboratory. Consultado el 19 de enero de 2013.

sciencedirect.com

Warner, John T. (1 de enero de 2019), «Chapter 8 - The materials», en Warner, John T., ed., Lithium-Ion Battery Chemistries (en inglés) (Elsevier): 171-217, ISBN 978-0-12-814778-8, S2CID 239383589, doi:10.1016/b978-0-12-814778-8.00008-9, consultado el 2 de abril de 2023 .

semanticscholar.org

api.semanticscholar.org

Shao-Horn, Yang; Croguennec, Laurence; Delmas, Claude; Nelson, E. Chris; O'Keefe, Michael A. (July 2003). «Atomic resolution of lithium ions in LiCoO
2». Nature Materials 2 (7): 464-467. PMID 12806387. S2CID 34357573. doi:10.1038/nmat922.
Warner, John T. (1 de enero de 2019), «Chapter 8 - The materials», en Warner, John T., ed., Lithium-Ion Battery Chemistries (en inglés) (Elsevier): 171-217, ISBN 978-0-12-814778-8, S2CID 239383589, doi:10.1016/b978-0-12-814778-8.00008-9, consultado el 2 de abril de 2023 .
Oswald, Stefan; Gasteiger, Hubert A. (1 de marzo de 2023). «The Structural Stability Limit of Layered Lithium Transition Metal Oxides Due to Oxygen Release at High State of Charge and Its Dependence on the Nickel Content». Journal of the Electrochemical Society 170 (3): 030506. Bibcode:2023JElS..170c0506O. ISSN 0013-4651. S2CID 258406065. doi:10.1149/1945-7111/acbf80.

unt.edu

digital.library.unt.edu

Shao-Horn, Yang; Croguennec, Laurence; Delmas, Claude; Nelson, E. Chris; O'Keefe, Michael A. (July 2003). «Atomic resolution of lithium ions in LiCoO
2». Nature Materials 2 (7): 464-467. PMID 12806387. S2CID 34357573. doi:10.1038/nmat922.