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lixmpo4 m (48) 48
materials science, multidisciplinary (21) 21
electrochemistry (20) 20
lifepo4 (17) 17
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chemistry, physical (14) 14
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phospho-olivines (9) 9
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Electrochimica Acta, ISSN 0013-4686, 05/2010, Volume 55, Issue 13, pp. 4162 - 4169
The electrochemical lithiation-delithiation reaction was examined for LiMnPO in which different cations were substituted for part of Mn. The X-ray diffraction... 
Lithium-ion batteries | Surface film formation | Cation substitution | Lithium manganese phosphate | Lithium diffusion | ELECTROCHEMISTRY | LIMPO4 M | ELECTRODE MATERIALS | LIXMPO4 M | CHEMICAL DIFFUSION-COEFFICIENT | LI-ION BATTERIES | OLIVINES | LIFEPO4
Journal Article
NATURE MATERIALS, ISSN 1476-1122, 08/2008, Volume 7, Issue 8, pp. 665 - 671
Lithium iron phosphate is one of the most promising positive-electrode materials for the next generation of lithium-ion batteries that will be used in electric... 
PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | SIZE | CHEMISTRY, PHYSICAL | LIXMPO4 M | BATTERIES | FEPO4 | MISCIBILITY GAP | SPECTROSCOPY | PHASE-TRANSITION | ELECTRODE | LIXFEPO4 | Nanoparticles | Electrodes | Lithium | Materials science | Material chemistry | Chemical Sciences
Journal Article
Angewandte Chemie International Edition, ISSN 1433-7851, 09/2008, Volume 47, Issue 39, pp. 7461 - 7465
Truly long‐life: A LiFePO4/carbon composite containing a highly crystalline LiFePO4 core with a size of about 20–40 nm and a semi‐graphitic carbon shell with a... 
conducting materials | polymerization | core–shell structures | electrochemistry | lithium batteries | Electrochemistry | Polymerization | Core-shell structures | Lithium batteries | Conducting materials | core-shell structures | ELECTROCHEMICAL PROPERTIES | CARBON | PERFORMANCE | PHOSPHO-OLIVINES | IRON | HIGH-POWER | LIXMPO4 M | CHEMISTRY, MULTIDISCIPLINARY | CATHODE MATERIAL | SURFACE
Journal Article
Journal of Alloys and Compounds, ISSN 0925-8388, 04/2015, Volume 628, pp. 471 - 479
•LiMn0.6Fe0.4PO4/C cathode material shows enhanced rate capability.•The Fe doped in the partial Mn sites could significantly facilitate the Li ions... 
Cathode material | Carbon coating and connection | Lithium manganese phosphate | Iron substitution | LIMPO4 M | ELECTRODE MATERIALS | MATERIALS SCIENCE, MULTIDISCIPLINARY | METALLURGY & METALLURGICAL ENGINEERING | CHEMISTRY, PHYSICAL | COMPOSITES | LIXMPO4 M | LIMNPO4 CATHODE | TRANSPORT | CONDUCTIVITY | LITHIUM-ION BATTERIES
Journal Article
by Qin, ZH and Zhou, XF and Xia, YG and Tang, CL and Liu, ZP
JOURNAL OF MATERIALS CHEMISTRY, ISSN 0959-9428, 2012, Volume 22, Issue 39, pp. 21144 - 21153
Morphology-controlled monodispersed LiMnPO4 nanocrystals as high-performance cathode materials for Li-ion batteries have been successfully synthesized by a... 
LIMPO4 M | LITHIUM MANGANESE PHOSPHATE | MATERIALS SCIENCE, MULTIDISCIPLINARY | SIZE | ELECTRODE | LIXMPO4 M | ELECTROCHEMICAL PERFORMANCE | LIFEPO4
Journal Article
Journal of Power Sources, ISSN 0378-7753, 07/2010, Volume 195, Issue 13, pp. 4308 - 4312
To improve the performance of LiFePO , single phase Li Na FePO /C (x = 0, 0.01, 0.03, 0.05) samples are synthesized by in situ polymerization... 
Lithium-ion batteries | In situ polymerization restriction | LiFePO | Na doping | ELECTROCHEMISTRY | ENERGY & FUELS | PERFORMANCE | BEHAVIOR | LIXMPO4 M | 1ST PRINCIPLES | CONDUCTIVITY | LiFePO4 | NANOCOMPOSITE | OLIVINE
Journal Article
Chemistry of Materials, ISSN 0897-4756, 02/2006, Volume 18, Issue 3, pp. 804 - 813
A series of synthetic heterosite−purpurite, (Mn y Fe1 - y )PO4 (y < 0.8), with negligible disorder and impurities, was obtained by chemical oxidation of the... 
CONDUCTIVITY | MATERIALS SCIENCE, MULTIDISCIPLINARY | LITHIUM BATTERIES | CHEMISTRY, PHYSICAL | CATHODE MATERIALS | PHOSPHO-OLIVINES | LIXMPO4 M | ELECTRONIC-STRUCTURE | LIFEPO4 | DEINTERCALATION
Journal Article
Journal of the Electrochemical Society, ISSN 0013-4651, 2009, Volume 156, Issue 7, pp. A541 - A552
LiMnPO4 nanoparticles synthesized by the polyol method were examined as a cathode material for advanced Li-ion batteries. The structure, surface morphology,... 
ELECTROCHEMISTRY | INTERCALATION PROCESSES | ELECTROLYTE | INTERFACE | STABILITY | PHOSPHO-OLIVINES | PARTICLE-SIZE | LIXMPO4 M | KEY | MATERIALS SCIENCE, COATINGS & FILMS | ELECTROCHEMICAL PERFORMANCE
Journal Article
ENERGY & ENVIRONMENTAL SCIENCE, ISSN 1754-5692, 11/2011, Volume 4, Issue 11, pp. 4560 - 4566
Electrochemically active LiMnPO4 nanoplates at lithiated/delithiated state were subjected to thermal stability and phase transformation evaluations for safety... 
HIGH-PERFORMANCE | ELECTRODE MATERIALS | ENERGY & FUELS | STATIONARY ENERGY-STORAGE | TG-MS ANALYSIS | LIXMPO4 M | LOW-TEMPERATURE | CHEMISTRY, MULTIDISCIPLINARY | ENGINEERING, CHEMICAL | ENVIRONMENTAL SCIENCES | NANOCOMPOSITE CATHODE | RECHARGEABLE LITHIUM BATTERIES | 1ST PRINCIPLES CALCULATIONS | POWER CAPABILITY
Journal Article
by Lee, KS and Lee, KJ and Kang, YS and Shin, TJ and Sung, YE and Ahn, D
NANOSCALE, ISSN 2040-3364, 2015, Volume 7, Issue 33, pp. 13860 - 13867
An Ag-embedded LiMnPO4 (LMP) cathode was synthesized by solid-state reaction using a 1 wt% Ag precursor. Structure, morphology, and electrical conductivity... 
TRANSPORT | PHYSICS, APPLIED | LIMPO4 M | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOSCIENCE & NANOTECHNOLOGY | LIXMPO4 M | CHEMISTRY, MULTIDISCIPLINARY | ELECTROCHEMICAL PERFORMANCE | LIFEPO4
Journal Article
Journal of the Electrochemical Society, ISSN 0013-4651, 2015, Volume 162, Issue 8, pp. A1556 - A1565
The enhancement in rate performance of LiMnPO4 cathode material for Li ion batteries has not been established for practical high power use, mainly because of... 
ELECTROCHEMISTRY | SIZE | NANOCOMPOSITE | LIXMPO4 M | MATERIALS SCIENCE, COATINGS & FILMS | ELECTROCHEMICAL PERFORMANCE | LIFEPO4
Journal Article
Faraday Discussions, ISSN 1359-6640, 2007, Volume 134, pp. 119 - 141
Lithium metal phosphates are amongst the most promising cathode materials for high capacity lithium-ion batteries. Owing to their inherently low electronic... 
SOLID-SOLUTION | GAP | CHEMISTRY, PHYSICAL | CATHODE MATERIALS | COMPOSITES | LIMNPO4 | IRON | LIXMPO4 M | LIXFEPO4 | CRYSTAL-CHEMISTRY | LIFEPO4
Journal Article
Faraday discussions, ISSN 1359-6640, 2007, Volume 134, pp. 119 - 141
Lithium metal phosphates are amongst the most promising cathode materials for high capacity lithium-ion batteries. Owing to their inherently low electronic... 
Journal Article
ACS Applied Materials & Interfaces, ISSN 1944-8244, 06/2014, Volume 6, Issue 12, pp. 9236 - 9244
Olivine LiFePO4 with nanoplate, rectangular prism nanorod and hexagonal prism nanorod morphologies with a short b-axis were successfully synthesized by a... 
shape controlled nanoparticles | lithium ion batteries | solvothermal | lithium iron phosphates | electrochemical performance | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOSCIENCE & NANOTECHNOLOGY | FREE SOLVOTHERMAL SYNTHESIS | LIXMPO4 M | HYDROTHERMAL SYNTHESIS | MESOPOROUS LIFEPO4/C | ELECTRODE | NANOCOMPOSITE | CRYSTAL ORIENTATION
Journal Article
JOURNAL OF MATERIALS CHEMISTRY, ISSN 0959-9428, 2007, Volume 17, Issue 30, pp. 3248 - 3254
Lithium transition metal phosphate olivines such as LiFePO4 have been recognized as very promising electrodes for lithium-ion batteries because of their energy... 
TRANSITION | NANOPARTICLES | CATHODES | MECHANISM | MATERIALS SCIENCE, MULTIDISCIPLINARY | OPTICAL-PROPERTIES | NANOTUBES | CRYSTAL | LIXMPO4 M | BATTERIES | LITHIUM IRON PHOSPHATE
Journal Article
Journal of Materials Chemistry A, ISSN 2050-7488, 01/2015, Volume 3, Issue 4, pp. 1569 - 1579
Nano-sized LiMn1-xFexPO4 (x = 0 and 0.1) was prepared by a solvothermal method in a mixed solvent of water and ethanol. LiMn0.9Fe0.1PO4-polyacene (PAS)... 
SOLVOTHERMAL SYNTHESIS | SUBSTITUTION | LIMNPO4 CATHODE | NANOCOMPOSITES | ELECTRODE MATERIALS | ENERGY & FUELS | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | PHOSPHO-OLIVINES | LITHIUM-ION BATTERIES | LIXMPO4 M
Journal Article
Nanoscale, ISSN 2040-3364, 07/2015, Volume 7, Issue 27, pp. 11509 - 11514
Here, we prepared LiMn0.8Fe0.2PO4 microspheres with an open three-dimensional nanoporous structure by a facile ion-exchange solvothermal method. The... 
HIGH-PERFORMANCE | SOLVOTHERMAL SYNTHESIS | PHYSICS, APPLIED | ELECTRODE MATERIALS | MICROSPHERES | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOSCIENCE & NANOTECHNOLOGY | LIMNPO4 | LIXMPO4 M | CHEMISTRY, MULTIDISCIPLINARY | CATHODE MATERIAL | ELECTROCHEMICAL PERFORMANCE
Journal Article
Physical Review B - Condensed Matter and Materials Physics, ISSN 1098-0121, 10/2011, Volume 84, Issue 13
Formation and diffusion of a vacancy-polaron complex in olivine-type cathode-active materials, namely, LiMPO4 (M = Fe, Mn), were theoretically investigated by... 
AUGMENTED-WAVE METHOD | PHYSICS, CONDENSED MATTER | TRANSPORT | ELECTRODE MATERIALS | LITHIUM BATTERIES | ION | CATHODE MATERIALS | MAGNETIC-PROPERTIES | MODEL | LIXMPO4 M | LIXFEPO4
Journal Article
RSC Advances, ISSN 2046-2069, 2015, Volume 5, Issue 121, pp. 99632 - 99639
Lithium manganese phosphate (LiMnPO4) has been considered as an alternative to lithium iron phosphate (LiFePO4) for next-generation Li-ion battery cathodes... 
SOLVOTHERMAL SYNTHESIS | LIMPO4 M | ELECTRODE MATERIALS | MANGANESE PHOSPHATE | SOLID-STATE REACTION | LITHIUM-ION BATTERIES | LIXMPO4 M | CHEMISTRY, MULTIDISCIPLINARY | ELECTROCHEMICAL PERFORMANCE
Journal Article
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