X
Search Filters
Format Format
Format Format
X
Sort by Item Count (A-Z)
Filter by Count
Journal Article (21373) 21373
Newspaper Article (1976) 1976
Conference Proceeding (629) 629
Trade Publication Article (516) 516
Magazine Article (451) 451
Book Chapter (147) 147
Reference (144) 144
Book / eBook (49) 49
Dissertation (39) 39
Government Document (30) 30
Book Review (18) 18
Publication (14) 14
Standard (5) 5
Newsletter (4) 4
Paper (2) 2
Streaming Video (1) 1
more...
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
rechargeable batteries (23172) 23172
lithium-ion batteries (13816) 13816
science & technology (13102) 13102
lithium (12865) 12865
physical sciences (10337) 10337
batteries (9673) 9673
technology (8287) 8287
chemistry (7413) 7413
electrode materials (6692) 6692
anodes (6501) 6501
materials science (6327) 6327
materials science, multidisciplinary (5857) 5857
electrochemistry (5638) 5638
electrodes (5441) 5441
electrochemical analysis (4861) 4861
chemistry, physical (4518) 4518
energy storage (4313) 4313
electrolytes (4304) 4304
cathodes (3816) 3816
physics (3751) 3751
carbon (3581) 3581
physics, applied (2689) 2689
chemistry, multidisciplinary (2683) 2683
energy & fuels (2616) 2616
discharge (2570) 2570
anode (2563) 2563
sodium (2433) 2433
physics, condensed matter (2299) 2299
nanoparticles (2280) 2280
nanostructure (2224) 2224
graphene (2184) 2184
storage batteries (2183) 2183
science & technology - other topics (2171) 2171
flux density (1778) 1778
engineering (1742) 1742
nanoscience & nanotechnology (1693) 1693
lithium batteries (1622) 1622
electric vehicles (1611) 1611
cycles (1564) 1564
anodenmaterial (1498) 1498
elektrolyt (1448) 1448
morphology (1426) 1426
kathode (1417) 1417
lithium-ionen-akkumulator (1386) 1386
chemical synthesis (1370) 1370
organic chemistry (1326) 1326
komposit (1306) 1306
lithiumion (1294) 1294
entladung (1286) 1286
lithiumbatterie (1270) 1270
li-ion-batteries (1245) 1245
electric properties (1220) 1220
lithium-ion battery (1160) 1160
lithiumionenbatterie (1143) 1143
analysis (1095) 1095
nanocomposites (1066) 1066
kohlenstoff (1057) 1057
anode-materials (1053) 1053
elektrode (1048) 1048
nickel (1048) 1048
stability (1044) 1044
energy (1038) 1038
graphite (1023) 1023
natrium (985) 985
electrical resistivity (982) 982
current density (976) 976
silicon (961) 961
kathodenwerkstoff (955) 955
stromdichte (947) 947
nanopartikel (945) 945
ions (938) 938
conductivity (922) 922
electric potential (915) 915
zinc (915) 915
solid electrolytes (911) 911
polymers (903) 903
x-ray diffraction (873) 873
ableitvermögen (861) 861
composite materials (858) 858
metallurgy & metallurgical engineering (851) 851
nanotechnology (846) 846
crystal structure (828) 828
diffusion (806) 806
structural stability (798) 798
synthesis (784) 784
cobalt (780) 780
scanning electron microscopy (774) 774
computer simulation (771) 771
manganese (771) 771
energiespeicherung (739) 739
nitrogen (735) 735
electrolytic cells (720) 720
oxygen (720) 720
elektrochemische leistung (712) 712
energiedichte (702) 702
electric batteries (696) 696
charge transfer (691) 691
lithium-ions (690) 690
porosity (684) 684
ion diffusion (675) 675
more...
Library Location Library Location
Language Language
Language Language
X
Sort by Item Count (A-Z)
Filter by Count
English (24995) 24995
Chinese (351) 351
Japanese (297) 297
German (129) 129
French (35) 35
Korean (17) 17
Spanish (7) 7
Norwegian (6) 6
Portuguese (5) 5
Polish (3) 3
Czech (2) 2
Serbian (2) 2
Latvian (1) 1
Russian (1) 1
Slovenian (1) 1
Swedish (1) 1
Turkish (1) 1
more...
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


2017, Electrochemical energy storage and conversion, ISBN 9781482258530, Volume 12, xiii, 194 pages
Book
Advanced functional materials, ISSN 1616-301X, 10/2018, Volume 28, Issue 43, pp. 1802938 - n/a
.... To date, this heavy burden is solely addressed by lithium‐ion battery technology. However, the ongoing depletion of limited global lithium resources has restricted their future availability for Li... 
K‐ion batteries | K–O2 batteries | potassium | next‐generation batteries | K–S batteries | K–O | K-ion batteries | batteries | next-generation batteries | Batteries | Lithium-ion batteries | Current carriers | Organic chemistry | Sodium | Storage systems | Energy costs | Lithium | Potassium | Storage batteries | Rechargeable batteries | Energy storage
Journal Article
2012, ISBN 1439850666, xxix, 386
"Next-generation batteries have higher power density and higher energy density and can be put into new forms with lower-cost mass production... 
TECHNOLOGY & ENGINEERING / Electronics / General | TECHNOLOGY & ENGINEERING / Telecommunications | Electric batteries | Fuel cells | Storage batteries | TECHNOLOGY & ENGINEERING / Electronics / Microelectronics
Book