X
Search Filters
Format Format
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
electrochemistry (202) 202
lithium-ion batteries (182) 182
lithium (148) 148
electrochemical performance (142) 142
materials science, multidisciplinary (142) 142
kathodenwerkstoff (141) 141
chemistry, physical (118) 118
cathodes (114) 114
electrodes (113) 113
high-capacity (107) 107
surface modification (100) 100
cathode material (99) 99
kathode (80) 80
ableitvermögen (78) 78
batteries (76) 76
cathode-materials (73) 73
electrode materials (72) 72
performance (72) 72
lithium-ion battery (70) 70
oxid (70) 70
lithium-ionen-akkumulator (67) 67
nanoscience & nanotechnology (67) 67
oxide (64) 64
capacity (61) 61
entladung (59) 59
li-rich (59) 59
lithium ion battery (59) 59
cathode materials (58) 58
li-ion-batteries (58) 58
li-rich cathode (56) 56
discharge (55) 55
energy & fuels (55) 55
rate capability (55) 55
li-rich cathode material (54) 54
rechargeable batteries (50) 50
oxides (48) 48
stability (48) 48
li-ion battery (47) 47
physics, applied (47) 47
x-ray-diffraction (47) 47
physics, condensed matter (46) 46
spannung (46) 46
li-rich layered oxide (44) 44
mn (44) 44
lithiumionenbatterie (43) 43
röntgendiffraktion (43) 43
cathode (42) 42
cycling stability (42) 42
li-ion batteries (42) 42
chemistry, multidisciplinary (41) 41
discharge-capacity (38) 38
electrochemical properties (38) 38
voltage decay (37) 37
chemistry (36) 36
electrochemical analysis (36) 36
li-rich layered oxides (36) 36
lithiumion (36) 36
energy storage (35) 35
li-rich cathode materials (34) 34
lithium ion batteries (34) 34
ni (34) 34
composite (31) 31
lithiumbatterie (31) 31
surface coating (31) 31
electrolytes (29) 29
elektrolyt (29) 29
manganese (29) 29
li2mno3 (28) 28
lithium batteries (28) 28
high-voltage (27) 27
condensed matter physics (26) 26
li-rich material (26) 26
oxygen loss (26) 26
coprecipitation (25) 25
diffusion (25) 25
electric-tension (25) 25
co electrodes (24) 24
materials science, ceramics (23) 23
spinel (23) 23
mechanism (22) 22
schichtstruktur (22) 22
elektrochemische leistung (21) 21
morphology (21) 21
transmissionselektronenmikroskopie (21) 21
voltage fade (21) 21
co (20) 20
li1.2ni0.2mn0.6o2 (20) 20
local-structure (20) 20
mangan (20) 20
voltage (20) 20
doping (19) 19
high-rate capability (19) 19
ion batteries (19) 19
oxidkathode (19) 19
analysis (18) 18
behavior (18) 18
diffraction (18) 18
energiedichte (18) 18
ladungsübertragung (18) 18
layered oxides (18) 18
more...
Language Language
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


Advanced Energy Materials, ISSN 1614-6832, 04/2014, Volume 4, Issue 5, p. n/a
The high‐energy‐density, Li‐rich layered materials, i.e., xLiMO2(1‐x)Li2MnO3, are promising candidate cathode materials for electric energy storage in plug‐in... 
rate performance | lithium‐ion batteries | layered materials | kinetics | cathodes | Li‐rich materials | Li-rich materials | lithium-ion batteries | Hybrid vehicles | Automobiles, Electric | Chemical reaction, Rate of | Manganese
Journal Article
Electrochimica Acta, ISSN 0013-4686, 10/2013, Volume 109, pp. 52 - 58
Li-rich cathode material Li Mn Ni Co O is prepared by a sol–gel method and coated with CaF layer via a wet chemical process. The pristine and CaF -coated... 
Lithium-ion battery | Li-rich cathode material | Surface coating | Improved electrochemical performance | ELECTROCHEMISTRY | SOLID-SOLUTION CATHODES | PHASE | PERFORMANCE | Scanning electron microscopy | Phase transformations | Phase (cyclic) | Electrolytes | Coating | Cathodes | Calcium fluoride | Electrochemical impedance spectroscopy
Journal Article
Electrochimica Acta, ISSN 0013-4686, 2013, Volume 109, pp. 52 - 58
Li-rich cathode material Li Mn Ni Co O is prepared by a sol-gel method and coated with CaF layer via a wet chemical process. The pristine and CaF -coated... 
Lithium-ion battery | Li-rich cathode material | Surface coating | Improved electrochemical performance
Journal Article
Journal of Power Sources, ISSN 0378-7753, 11/2013, Volume 241, pp. 522 - 528
Various Li MnO ·(1 −  )LiCo Ni Mn O (  = 0.1, 0.2, 0.3, 0.4, and 0.5) cathode materials were prepared by the one-step sol–gel route. The structure of Li MnO... 
Lithium-ion batteries | Electrochemical performance | Li-rich | xLi2MnO3·(1 − x)LiCo1/3Ni1/3Mn1/3O2 | Cathodes | xLi | (1 - x)LiCo | MnO
Journal Article
Advanced Energy Materials, ISSN 1614-6832, 07/2015, Volume 5, Issue 13, pp. 1500274 - n/a
Li‐rich layered metal oxides have attracted much attention for their high energy density but still endure severe capacity fading and voltage decay during... 
lithium ion batteries | surface coating | structural stability | Li‐rich cathodes | voltage decay | Li-rich cathodes | Oxides | Batteries
Journal Article
Electrochimica Acta, ISSN 0013-4686, 05/2015, Volume 165, pp. 182 - 190
Layered Li MnO ·(1 )LiMnO ( = 0.57, 0.48, and 0.44) nanoplates are firstly prepared by pyrolysis reducing the electrochemically inactive monoclinic Li MnO... 
Mn-based layered Li-rich cathode material | lithium stearate | electrochemical property | lithium manganese oxide | nanoplate | lithium manganese oxide nanoplate | electrochemical property lithium stearate
Journal Article
Electrochimica Acta, ISSN 0013-4686, 04/2012, Volume 66, pp. 61 - 66
► A simple co-precipitation method is used to prepare spherical Ni Co Mn CO . ► The effect of Li content on the physical and electrochemical properties is... 
Cathode material | Lithium ion battery | Layered Li-rich | Co-precipitation | ELECTROCHEMISTRY | IMPACT | PERFORMANCE | ELECTRODES | CATIONIC DISTRIBUTION | LITHIUM | Electric potential | Voltage | Lithium | Cations | Carbonates | Physical properties | Density | Cathodes
Journal Article