X
Search Filters
Format Format
Format Format
X
Sort by Item Count (A-Z)
Filter by Count
Journal Article (2609) 2609
Publication (54) 54
Newspaper Article (47) 47
Book Chapter (31) 31
Conference Proceeding (24) 24
Magazine Article (13) 13
Trade Publication Article (12) 12
Book / eBook (8) 8
Book Review (2) 2
Dissertation (2) 2
Patent (1) 1
more...
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
sulfur (1477) 1477
lithium (1414) 1414
materials science, multidisciplinary (1212) 1212
batteries (1154) 1154
lithium-sulfur batteries (1153) 1153
lithium sulfur batteries (1122) 1122
chemistry, physical (1010) 1010
schwefel (1007) 1007
electrochemistry (934) 934
cathodes (833) 833
sulfur compounds (787) 787
performance (758) 758
polysulfides (753) 753
polysulfid (710) 710
chemistry, multidisciplinary (700) 700
carbon (677) 677
cathode (665) 665
nanoscience & nanotechnology (642) 642
kathode (629) 629
electrolytes (597) 597
physics, applied (593) 593
energy storage (589) 589
graphene (582) 582
energy & fuels (550) 550
physics, condensed matter (521) 521
li-s batteries (488) 488
electrodes (453) 453
lithium-schwefel-akkumulator (426) 426
lithium-sulfur battery (426) 426
discharge (377) 377
lithium–sulfur batteries (368) 368
lithium-sulfur-battery (366) 366
composite (361) 361
elektrolyt (352) 352
kohlenstoff (340) 340
komposit (340) 340
lithiumschwefelbatterie (332) 332
anode (300) 300
polysulphides (297) 297
electrochemical analysis (289) 289
rechargeable batteries (285) 285
cells (276) 276
lithiumbatterie (275) 275
nanotubes (275) 275
electric properties (271) 271
chemistry (268) 268
high-capacity (257) 257
flux density (253) 253
electrolyte (247) 247
electrochemical performance (244) 244
anodes (237) 237
nitrogen (237) 237
ion batteries (222) 222
electrode (218) 218
nanoparticles (212) 212
entladung (211) 211
cathode material (209) 209
energiedichte (209) 209
composites (208) 208
carbon nanotubes (207) 207
kathodenwerkstoff (203) 203
porous carbon (202) 202
electrode materials (200) 200
lithiumsulfid (199) 199
nanostructure (195) 195
interlayer (194) 194
organic chemistry (193) 193
stability (186) 186
ableitvermögen (182) 182
mixed-material (179) 179
graphene oxide (177) 177
capacity (176) 176
separator (167) 167
energy-storage (163) 163
separators (163) 163
storage batteries (160) 160
diffusion (158) 158
lithium-batteries (156) 156
elektrode (155) 155
materials science (153) 153
polysulfide (153) 153
cathode materials (152) 152
cycles (151) 151
electrochemical properties (148) 148
graphen (146) 146
analysis (143) 143
arbeitsstoff (142) 142
lithiumsulfat (142) 142
lithium batteries (138) 138
condensed matter physics (136) 136
lithium-ion batteries (134) 134
energiespeicherung (133) 133
porosity (131) 131
electrochemical reactions (130) 130
electrolytic cells (130) 130
sulfides (127) 127
polymers (124) 124
stickstoff (124) 124
adsorption (122) 122
lithium sulfur battery (120) 120
more...
Library Location Library Location
Language Language
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


Journal of Power Sources, ISSN 0378-7753, 10/2014, Volume 264, pp. 30 - 34
Li–S cells have high potential gravimetric cell energy densities between 200 and 600 Wh kg−1. To obtain a high cell energy density, the sulfur fraction in the... 
Energy density | Electrolyte/sulfur ratio | Li–S | Electrolyte | Pouch cells | Li-S | ELECTROCHEMISTRY | ENERGY & FUELS | PERFORMANCE | LITHIUM-SULFUR BATTERIES | COMPOSITE | Sulfur compounds | Specific gravity | Electrodes | Electrolytic cells | Utilization | Mathematical analysis | Electrolytes | Sulfur | Carbon
Journal Article
Journal Article
Nano Energy, ISSN 2211-2855, 01/2016, Volume 19, Issue C, pp. 68 - 77
Lithium-ion batteries have attracted great attention as one of the most versatile electrochemical energy storage devices. However, to meet the ever-growing... 
Lithium-ion battery | Nafion | Porous Si | Full cell | Lithium–sulfur battery | Lithium-sulfur battery | ELECTROLYTE | PHYSICS, APPLIED | PARTICLES | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | CATHODE | NANOPARTICLES | LITHIUM-SULFUR BATTERIES | NANOSPHERES | NANOWIRES | EFFICIENT
Journal Article
Journal of Power Sources, ISSN 0378-7753, 2012, Volume 199, pp. 322 - 330
Journal Article
Electrochimica Acta, ISSN 0013-4686, 03/2019, Volume 300, pp. 150 - 155
This work introduces a novel concept of sulfide heave to account for cathode deterioration in Li–S pouch cell. Caused by the repeated sulfur segregation and... 
Cyclability | Cathode deterioration | Lithium-sulfur battery | Pressurization | Sulfide heave | ELECTROCHEMISTRY | BINDER | MECHANISMS | ENERGY DENSITY | POLYMER | ELECTRODE | FROST HEAVE | CYCLE PERFORMANCE | POLYSULFIDE | Sulfides | Batteries | Lithium-ion batteries | Flux density | Heave | Deterioration | Lithium | Sulfur | Pressurizing | Cathodes | Rechargeable batteries
Journal Article
Journal of Power Sources, ISSN 0378-7753, 03/2016, Volume 309, pp. 76 - 81
Li–S batteries are an emerging technology and the most promising successor of current lithium ion technology. While there is great perspective in terms of... 
Cell configuration | Electrochemical performance | Porous carbon | Separators | Lithium sulphur batteries | ELECTROCHEMISTRY | TRIAZINE-BASED FRAMEWORKS | POLYSULFIDE SHUTTLE | ENERGY & FUELS | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | Sulfur compounds | Batteries | Sulfur | Coatings | Electrochemistry | Lithium | Infiltration | Coating | Sulphur | Carbon | Melts
Journal Article
Journal of Power Sources, ISSN 0378-7753, 08/2012, Volume 212, pp. 179 - 185
Journal Article