X
Search Filters
Format Format
Format Format
X
Sort by Item Count (A-Z)
Filter by Count
Patent (84100) 84100
Journal Article (75029) 75029
Newsletter (17053) 17053
Newspaper Article (7394) 7394
Publication (1380) 1380
Conference Proceeding (1243) 1243
Magazine Article (699) 699
Book Chapter (440) 440
Trade Publication Article (429) 429
Dissertation (185) 185
Book / eBook (183) 183
Report (113) 113
Book Review (88) 88
Government Document (56) 56
Technical Report (33) 33
Reference (23) 23
Web Resource (14) 14
Transcript (7) 7
Paper (4) 4
Journal / eJournal (3) 3
Data Set (1) 1
more...
Subjects Subjects
Subjects Subjects
X
Sort by Item Count (A-Z)
Filter by Count
electricity (84360) 84360
basic electric elements (84100) 84100
processes or means, e.g. batteries, for the direct conversionof chemical into electrical energy (84100) 84100
batteries (51263) 51263
general tagging of cross-sectional technologies spanning over several sections of the ipc (30142) 30142
general tagging of new technological developments (30142) 30142
technical subjects covered by former uspc cross-reference art collections [xracs] and digests (30142) 30142
electrochemistry (27029) 27029
lithium (26778) 26778
technologies or applications for mitigation or adaptation againstclimate change (26429) 26429
materials science, multidisciplinary (23826) 23826
lithium-ion batteries (21156) 21156
chemistry, physical (18955) 18955
reduction of greenhouse gas [ghg] emissions, related to energygeneration, transmission or distribution (18889) 18889
chemistry (18593) 18593
anodes (16129) 16129
electrodes (15786) 15786
anode (14373) 14373
metallurgy (13954) 13954
electrolytes (13492) 13492
energy & fuels (12955) 12955
performance (11814) 11814
rechargeable batteries (11348) 11348
graphene (11114) 11114
carbon (10878) 10878
nanoparticles (10707) 10707
chemistry, multidisciplinary (9575) 9575
physics, applied (9485) 9485
climate change mitigation technologies in the production orprocessing of goods (8750) 8750
transporting (8750) 8750
performing operations (8718) 8718
research (8658) 8658
nanoscience & nanotechnology (8621) 8621
electrode materials (8011) 8011
nanotechnology (7319) 7319
physics, condensed matter (7319) 7319
inorganic chemistry (7145) 7145
cathodes (6736) 6736
energy storage (6673) 6673
analysis (6404) 6404
electric properties (6185) 6185
nanostructure (6008) 6008
electrochemical performance (5973) 5973
technical subjects covered by former uspc (5960) 5960
anode material (5952) 5952
climate change mitigation technologies related totransportation (5887) 5887
patents (5786) 5786
storage (5747) 5747
lithium-ionen-akkumulator (5684) 5684
elektrolyt (5675) 5675
kathode (5584) 5584
intellectual property (5581) 5581
discharge (5531) 5531
technical subjects covered by former us classification (5528) 5528
composite (5469) 5469
graphite (5247) 5247
komposit (5207) 5207
li-ion-batteries (5121) 5121
lithium-ion battery (5078) 5078
anodenmaterial (5008) 5008
lithiumionenbatterie (4842) 4842
anode materials (4816) 4816
high-capacity (4815) 4815
lithiumion (4691) 4691
lithium batteries (4685) 4685
reports (4667) 4667
elektrode (4647) 4647
silicon (4645) 4645
entladung (4639) 4639
electrochemical analysis (4490) 4490
lithiumbatterie (4467) 4467
compounds thereof (4464) 4464
energy-storage (4443) 4443
non-metallic elements (4434) 4434
kohlenstoff (4315) 4315
nanotubes (4266) 4266
nanocomposites (4135) 4135
cathode (4090) 4090
capacity (4057) 4057
nanopartikel (3960) 3960
ion batteries (3904) 3904
capacitors (3899) 3899
lithium ion battery (3899) 3899
electrochemical properties (3865) 3865
sodium (3844) 3844
stability (3833) 3833
oxide (3802) 3802
lithium ion batteries (3759) 3759
stromdichte (3650) 3650
li-ion batteries (3638) 3638
anode-materials (3629) 3629
nanosheets (3552) 3552
electrode (3478) 3478
apparatus therefor (3433) 3433
electrolytic or electrophoretic processes (3327) 3327
sulfur (3250) 3250
ableitvermögen (3200) 3200
chemical properties (3169) 3169
solar cells (3144) 3144
diffusion (3136) 3136
more...
Library Location Library Location
Library Location Library Location
X
Sort by Item Count (A-Z)
Filter by Count
Engineering & Comp. Sci. - Stacks (60) 60
Gerstein Science - Stacks (14) 14
Online Resources - Online (11) 11
Collection Dvlpm't (Acquisitions) - Closed Orders (10) 10
Collection Dvlpm't (Acquisitions) - Vendor file (9) 9
UTL at Downsview - May be requested (4) 4
UofT at Mississauga - Stacks (3) 3
Engineering & Comp. Sci. - Missing (1) 1
Robarts - Stacks (1) 1
Thomas Fisher Rare Book - Rare Book (1) 1
UofT at Scarborough - Stacks (1) 1
more...
Language Language
Language Language
X
Sort by Item Count (A-Z)
Filter by Count
English (180121) 180121
Chinese (17156) 17156
French (15907) 15907
Korean (7650) 7650
German (7346) 7346
Japanese (4234) 4234
Russian (556) 556
Norwegian (136) 136
Danish (97) 97
Portuguese (85) 85
Swedish (80) 80
Spanish (77) 77
Finnish (64) 64
Polish (64) 64
Dutch (49) 49
Italian (43) 43
Ukrainian (25) 25
Czech (21) 21
Hungarian (11) 11
Serbian (9) 9
Romanian (7) 7
Bulgarian (6) 6
Slovenian (6) 6
Greek (5) 5
Hebrew (5) 5
Slovak (5) 5
Indonesian (4) 4
Croatian (3) 3
Icelandic (3) 3
Arabic (2) 2
Bosnian (1) 1
Hindi (1) 1
Turkish (1) 1
more...
Publication Date Publication Date
Click on a bar to filter by decade
Slide to change publication date range


Journal of Energy Chemistry, ISSN 2095-4956, 07/2020, Volume 46, pp. 22 - 29
Several challenging issues, such as the poor conductivity of sulfur, shuttle effects, large volume change of cathode, and the dendritic lithium in anode, have... 
Three-dimensional network structure | MWCNTs | Lithium–sulfur batteries | Polar and catalytic Co9S8
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 07/2020, Volume 46, pp. 144 - 151
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 07/2020, Volume 46, pp. 71 - 77
Metal selenides owing to their high theoretical capacity and good conductivity are considered as one of the potential candidates for the anode materials of... 
Tin diselenide | Ex-situ XRD | Initial coulombic efficiency | Sodium-ion batteries | SEI
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 07/2020, Volume 46, pp. 114 - 122
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 07/2020, Volume 46, pp. 87 - 93
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 06/2020, Volume 45, pp. 52 - 58
Aqueous rechargeable zinc ion batteries are very attractive in large-scale storage applications, because they have high safety, low cost and good durability.... 
Aqueous battery | Graphene aerogel | Cathode materials | Poly 3,4,9,10-perylentetracarboxylic dianhydride | Zinc ion battery
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 06/2020, Volume 45, pp. 74 - 82
Li–O batteries have attracted significant interest in the past decade owing to their superior high specific energy density in contrast to conventional lithium... 
Pouch-type cell | Energy density | Safety tests | Li–O2 battery | Failure analysis
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 06/2020, Volume 45, pp. 98 - 102
The past decade has witnessed the germination of rechargeable aluminum batteries (RABs) with the colossal potential to enact as a device for the large scale... 
Electrochemistry | Rechargeable aluminum battery | Interface
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 06/2020, Volume 45, pp. 119 - 125
Developing large-scale and highly efficient oxygen reduction reaction (ORR) catalysts acts a vital role in realizing wide application of metal–air batteries.... 
Hierarchically porous structure | Biomass | Gas-foaming strategy | Oxygen reduction reaction | Al–air battery
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 06/2020, Volume 45, pp. 135 - 141
Lithium sulfur batteries are one of the most promising alternative electrochemical systems, but their practical applications are largely hindered by the... 
Chemical adsorption | Niobium nitride | Catalytic effect | Lithium-sulfur batteries | High loading
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 06/2020, Volume 45, pp. 40 - 44
Aluminum-graphene battery is promising for its abundant raw materials, high power density, ultralong cycle life and superior safety. However, the development... 
Intercalated graphene | Increasing capacity | Al-graphene battery | Capacitive charge storage | Exfoliation
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 05/2020, Volume 44, pp. 154 - 161
Lithium–sulfur (Li-S) batteries are promising energy storage devices owing to their high energy density and the low cost of sulfur. However, they are still far... 
Cyclic stability | Lithium−sulfur battery | Binder | BPI | Redox mediator
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 05/2020, Volume 44, pp. 8 - 12
Interface effect of N−S co-doping on promoting the conversion reaction for Na Se in selenide metal materials as sodium ion batteries. 
Na ion battery | Graphene/Na2Se interface | Reversible conversion reaction
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 05/2020, Volume 44, pp. 13 - 18
Li Ti O (LTO) has drawn great attention due to its safety and stability in lithium-ion batteries (LIBs). However, high potential plateau at 1.5 V vs. Li... 
Lithium-ion batteries | Dual-ion batteries | Specific energy | Specific power | Li4Ti5O12
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 05/2020, Volume 44, pp. 33 - 40
Thermal runaway is the main factor contributing to the unsafe behaviors of lithium-ion batteries (LIBs) in practical applications. The application of... 
Lithium-ion battery | Thermal shutdown | Safety | Separator
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 05/2020, Volume 44, pp. 1 - 7
Zinc–air batteries provide a great potential for future large-scale energy storage. We assess the test factors that mainly affect the measured power density of... 
Power density | Zinc–air battery | Non-noble metal catalysts | Oxygen reduction reaction
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 05/2020, Volume 44, pp. 61 - 67
Lithium–sulfur (Li–S) battery is a potential energy storage technology with high energy density and low cost. However, the gap between theoretical expectation... 
Electrochemical performance | Porous carbon | Biomass-derived material | Lithium sulfur batteries
Journal Article
Journal of Energy Chemistry, ISSN 2095-4956, 05/2020, Volume 44, pp. 97 - 105
Ordered hierarchical architectures are attractive candidates for electrochemical energy storage applications. Herein, a facile self-template strategy is... 
Fe7Se8 | Nanorod bundles | Sodium-ion batteries | Hierarchical structure | Oleylamine
Journal Article
No results were found for your search.

Cannot display more than 1000 results, please narrow the terms of your search.