Molybdenum Substitution for Improving the Charge Compensation and Activity of Li2MnO3
Published 2014 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Molybdenum Substitution for Improving the Charge Compensation and Activity of Li2MnO3
Authors
Keywords
-
Journal
CHEMISTRY-A EUROPEAN JOURNAL
Volume 20, Issue 28, Pages 8723-8730
Publisher
Wiley
Online
2014-06-18
DOI
10.1002/chem.201402727
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Feasibility of Using Li2MoO3 in Constructing Li-Rich High Energy Density Cathode Materials
- (2014) Jun Ma et al. CHEMISTRY OF MATERIALS
- Improved electron/Li-ion transport and oxygen stability of Mo-doped Li2MnO3
- (2014) Yurui Gao et al. Journal of Materials Chemistry A
- High Performance Li2Ru1–yMnyO3 (0.2 ≤ y ≤ 0.8) Cathode Materials for Rechargeable Lithium-Ion Batteries: Their Understanding
- (2013) M. Sathiya et al. CHEMISTRY OF MATERIALS
- On the Relationship between Mo K-Edge Energies and DFT Computed Partial Charges
- (2013) Liwei Li et al. Journal of Physical Chemistry C
- High-Energy Cathode Materials (Li2MnO3–LiMO2) for Lithium-Ion Batteries
- (2013) Haijun Yu et al. Journal of Physical Chemistry Letters
- Density Functional Investigation on Li2MnO3
- (2012) Ruijuan Xiao et al. CHEMISTRY OF MATERIALS
- Spectroscopic fingerprints of valence and spin states in manganese oxides and fluorides
- (2012) Ruimin Qiao et al. CURRENT APPLIED PHYSICS
- Calculations of Oxygen Stability in Lithium-Rich Layered Cathodes
- (2012) Penghao Xiao et al. Journal of Physical Chemistry C
- Charge compensation mechanisms in Li1.16Ni0.15Co0.19Mn0.50O2 positive electrode material for Li-ion batteries analyzed by a combination of hard and soft X-ray absorption near edge structure
- (2012) Masatsugu Oishi et al. JOURNAL OF POWER SOURCES
- Recent progress in cathode materials research for advanced lithium ion batteries
- (2012) Bo Xu et al. MATERIALS SCIENCE & ENGINEERING R-REPORTS
- Structural evolution and the capacity fade mechanism upon long-term cycling in Li-rich cathode material
- (2012) Bohang Song et al. PHYSICAL CHEMISTRY CHEMICAL PHYSICS
- The Current Move of Lithium Ion Batteries Towards the Next Phase
- (2012) Tae-Hee Kim et al. Advanced Energy Materials
- Continuous activation of Li2MnO3 component upon cycling in Li1.167Ni0.233Co0.100Mn0.467Mo0.033O2 cathode material for lithium ion batteries
- (2012) Seung-Ho Yu et al. Journal of Materials Chemistry A
- Influence of Cationic Substitutions on the Oxygen Loss and Reversible Capacity of Lithium-Rich Layered Oxide Cathodes
- (2011) Z. Q. Deng et al. Journal of Physical Chemistry C
- Structural Analysis of Li2MnO3 and Related Li-Mn-O Materials
- (2011) Denis Y.W. Yu et al. JOURNAL OF THE ELECTROCHEMICAL SOCIETY
- Soft X-ray Spectroscopy of C60/Copper Phthalocyanine/MoO3 Interfaces: Role of Reduced MoO3 on Energetic Band Alignment and Improved Performance
- (2010) S. W. Cho et al. Journal of Physical Chemistry C
- Synthesis, phase relation and electrical and electrochemical properties of ruthenium-substituted Li2MnO3 as a novel cathode material
- (2010) Daisuke Mori et al. JOURNAL OF POWER SOURCES
- In situ X-ray absorption spectroscopic study of Li-rich layered cathode material Li[Ni0.17Li0.2Co0.07Mn0.56]O2
- (2010) Atsushi Ito et al. JOURNAL OF POWER SOURCES
- Raman Microspectrometry Applied to the Study of Electrode Materials for Lithium Batteries
- (2009) Rita Baddour-Hadjean et al. CHEMICAL REVIEWS
- Electrochemical Activities in Li[sub 2]MnO[sub 3]
- (2009) Denis Y. W. Yu et al. JOURNAL OF THE ELECTROCHEMICAL SOCIETY
- Valence-state transition inSrMn1−xMoxO3(0≤x≤0.5)investigated by soft x-ray absorption spectroscopy
- (2009) Jieun Lee et al. PHYSICAL REVIEW B
- Comparative study of the electronic structures of SrMO3(M = Ti, V, Mn, Fe, and Co; M = Zr, Mo, Ru, and Rh) by O 1s x-ray absorption spectroscopy
- (2008) Han-Jin Noh et al. JOURNAL OF PHYSICS-CONDENSED MATTER
Publish scientific posters with Peeref
Peeref publishes scientific posters from all research disciplines. Our Diamond Open Access policy means free access to content and no publication fees for authors.
Learn MoreCreate your own webinar
Interested in hosting your own webinar? Check the schedule and propose your idea to the Peeref Content Team.
Create Now