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basic electric elements (65) 65
electricity (65) 65
processes or means, e.g. batteries, for the direct conversionof chemical into electrical energy (65) 65
general tagging of cross-sectional technologies spanning over several sections of the ipc (29) 29
general tagging of new technological developments (29) 29
technical subjects covered by former uspc cross-reference art collections [xracs] and digests (29) 29
technologies or applications for mitigation or adaptation againstclimate change (26) 26
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chemistry (13) 13
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transporting (12) 12
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casting (9) 9
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lithium-ion batteries (8) 8
performance (8) 8
silicon (8) 8
alloys (7) 7
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chemistry, physical (7) 7
inorganic chemistry (7) 7
anodes (6) 6
compounds thereof (6) 6
electrodes (6) 6
ferrous or non-ferrous alloys (6) 6
ion batteries (6) 6
making metallic powder (6) 6
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non-metallic elements (6) 6
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working metallic powder (6) 6
chemistry, multidisciplinary (5) 5
electrolytes (5) 5
energy & fuels (5) 5
lithium (5) 5
materials science, coatings & films (5) 5
cables (4) 4
carbon (4) 4
conductors (4) 4
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selection of materials for their conductive, insulating ordielectric properties (4) 4
anode (3) 3
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casting of metals (3) 3
casting of other substances by the same processes or devices (3) 3
cathodes (3) 3
chemical vapor synthesis (3) 3
composite (3) 3
cracks (3) 3
indexing scheme relating to structural and physical aspects ofsolid inorganic compounds (3) 3
insertion (3) 3
lithium, li (3) 3
lithiumionenbatterie (3) 3
mechanism (3) 3
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nanostructure (3) 3
particulate composites (3) 3
potentials, cells, elements (3) 3
technical subjects covered by former us classification (3) 3
technical subjects covered by former uspc (3) 3
tin phosphide (3) 3
wc-co (3) 3
alloying (2) 2
capacity (2) 2
cathode (2) 2
characterization and evaluation of materials (2) 2
chemical or physical processes, e.g. catalysis or colloidchemistry (2) 2
chemical properties (2) 2
cobalt (2) 2
cop3 (2) 2
cycle performance (2) 2
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deposition (2) 2
dynamikexpansion (2) 2
earth (2) 2
electrically conductive (2) 2
engineering, chemical (2) 2
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formation process (2) 2
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li-ion-batteries (2) 2
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Chemical Society Reviews, ISSN 0306-0012, 11/2013, Volume 42, Issue 23, pp. 911 - 934
Journal Article
Energy and Environmental Science, ISSN 1754-5692, 06/2011, Volume 4, Issue 6, pp. 1986 - 2002
Li-ion batteries have been employed successfully in various small electronic devices for the last two decades, and the types of applications are currently... 
REVERSIBLE LITHIUM STORAGE | NEGATIVE-ELECTRODE | ION BATTERIES | ELECTROCHEMICAL PROPERTIES | ANODE MATERIAL | ENERGY & FUELS | CATHODE MATERIALS | CHEMISTRY, MULTIDISCIPLINARY | ENGINEERING, CHEMICAL | ENVIRONMENTAL SCIENCES | POSITIVE-ELECTRODE MATERIALS | METAL-AIR BATTERIES | ANATASE TIO2 NANOTUBES | HIGH-RATE PERFORMANCE
Journal Article
Energy and Environmental Science, ISSN 1754-5692, 05/2012, Volume 5, Issue 5, pp. 6895 - 6899
SiO2 is one of the most abundant materials on Earth. It is costeffective and also environmentally benign when used as an energy material. Although SiO2 was... 
RECHARGEABLE BATTERIES | AMORPHOUS-SILICON | ENERGY & FUELS | LITHIUM SECONDARY BATTERIES | PERFORMANCE | CYCLABILITY | CHEMISTRY, MULTIDISCIPLINARY | ENGINEERING, CHEMICAL | ENVIRONMENTAL SCIENCES | ENHANCEMENT | RAY PHOTOELECTRON-SPECTROSCOPY | ELECTRODE | NANOCOMPOSITE | COMPOSITE ANODE | Earth | Lithium-ion batteries | Energy use | Quartz | Anodes | Silicon dioxide | Energy storage
Journal Article
ACS Nano, ISSN 1936-0851, 03/2014, Volume 8, Issue 3, pp. 2977 - 2985
A core–shell structured Si nanoparticles@TiO2–x /C mesoporous microfiber composite has been synthesized by an electrospinning method. The core–shell composite... 
thermal property | silicon | conductivity | lithium-ion battery | volume expansion | core-shell | nonstoichiometric TiO2 | THERMAL-STABILITY | INSERTION | MATERIALS SCIENCE, MULTIDISCIPLINARY | NANOCRYSTALS | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | NANORODS | CHEMISTRY, MULTIDISCIPLINARY | CARBONIZATION | POLY(METHYL METHACRYLATE) | ELECTRODE | PYROLYSIS | NANOWIRES | TIO2
Journal Article
Journal of Materials Chemistry, ISSN 0959-9428, 04/2012, Volume 22, Issue 16, pp. 7999 - 8004
Journal Article
Electrochimica Acta, ISSN 0013-4686, 2013, Volume 108, pp. 591 - 595
This work addresses the electrochemical performances of an over-lithiated lithium nickel oxide (Li NiO )as a sacrificing positive additive for lithium-ion... 
Lithium-ion batteries | Capacity gaina | Over-lithiated lithium nickel oxide | Sacrificing electrodes | Formation process
Journal Article
Journal of the Electrochemical Society, ISSN 0013-4651, 2012, Volume 159, Issue 3, pp. A193 - A197
Re-deposition of manganese compounds on LiMn2O4 electrode after Mn dissolution and its impact on the positive electrode performances are studied by a control... 
MELT-IMPREGNATION METHOD | ELEVATED-TEMPERATURES | THERMAL-STABILITY | CATHODE | ELECTROCHEMISTRY | CELLS | V LITHIUM BATTERIES | PERFORMANCE | LI-ION BATTERY | OXIDE SPINEL | CAPACITY LOSSES | MATERIALS SCIENCE, COATINGS & FILMS
Journal Article
Electrochimica Acta, ISSN 0013-4686, 10/2013, Volume 108, p. 591
This work addresses the electrochemical performances of an over-lithiated lithium nickel oxide (Li.sub.2NiO.sub.2) as a sacrificing positive additive for... 
Electrochemistry | Batteries
Journal Article
Advanced Energy Materials, ISSN 1614-6832, 02/2014, Volume 4, Issue 3, p. n/a
Natural cubic‐FeS2 is embedded in a stabilized polyacrylonitrile (PAN) matrix. The PAN matrix confines the electroactive reduced species of FeS2 and captures... 
liquid electrolytes | pyrite | cathodes | batteries | polyacrylonitrile | ELECTROCHEMISTRY | PYRITE | PHYSICS, CONDENSED MATTER | ION BATTERIES | PHYSICS, APPLIED | ENERGY & FUELS | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | ANODES | COMPOSITE | LI-ION | REDUCTION | LITHIUM | Sulfur compounds | Electrolytes
Journal Article
Chemistry of Materials, ISSN 0897-4756, 10/2010, Volume 22, Issue 19, pp. 5570 - 5579
Silicon monoxide (SiO) is a promising candidate for anodes in lithium rechargeable batteries, because of its large capacity. The initial irreversible reaction... 
ION BATTERIES | NMR | CARBON | REDUCTION | SIO ANODES | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | ELECTRODES | CHEMISTRY, PHYSICAL | COMPOSITE-MATERIAL | SI-29
Journal Article
Electrochimica Acta, ISSN 0013-4686, 05/2011, Volume 56, Issue 14, pp. 5095 - 5101
► A porosity-controllable Si-based composite electrode was fabricated. ► PMMA showing unzipping phenomena was utilized as a pore-forming agent. ► Cyclic... 
Lithium-ion battery | Volume change | Dilatometry | Silicon | Porosity | ELECTROCHEMISTRY | BINDER | ANODE MATERIAL | MECHANISM | PERFORMANCE | INTERCALATION | LI-ION BATTERIES | GRAPHITE-ELECTRODES | NEGATIVE ELECTRODES | METHYL METHACRYLATE | RECHARGEABLE LITHIUM BATTERIES | Electrodes | Chemical properties | Batteries | Cycles | Deformation | Particulate composites | Dilation | Polymethyl methacrylates
Journal Article
by Jeong, G and Kim, JH and Kim, YU and Kim, YJ
JOURNAL OF MATERIALS CHEMISTRY, ISSN 0959-9428, 2012, Volume 22, Issue 16, pp. 7999 - 8004
A titanium dioxide (TiO2) surface coating was applied to improve both the electrochemical and thermal properties of SiO as a high energy density anode for... 
CARBON | MATERIALS SCIENCE, MULTIDISCIPLINARY | LITHIUM BATTERIES | SILICON | CHEMISTRY, PHYSICAL | ELECTRODE | LI0.81C6 | COMPOSITE | ELECTROCHEMICAL PERFORMANCE | ELEVATED-TEMPERATURE
Journal Article
Electrochimica Acta, ISSN 0013-4686, 10/2013, Volume 108, pp. 591 - 595
This work addresses the electrochemical performances of an over-lithiated lithium nickel oxide (Li NiO ) as a sacrificing positive additive for lithium-ion... 
Lithium-ion batteries | Sacrificing electrodes | Formation process | Capacity gain | Over-lithiated lithium nickel oxide | ELECTROCHEMISTRY | PHASE | MECHANISM | ELECTRODE | ANODES | SELECTION | Nickel oxides | Electrodes | Charging | Additives | Lithium | Decomposition | Gain
Journal Article
Journal of the Electrochemical Society, ISSN 0013-4651, 2013, Volume 160, Issue 9, pp. A1497 - A1501
In this paper we demonstrate an all-solid-state Li-ion battery with a specific energy of 225 mWh g(-1) based upon the Combined mass of both the composite anode... 
GLASS | CATHODE | ELECTROCHEMISTRY | LI4TI5O12 ELECTRODE | INSERTION | IRON SULFIDE | LITHIUM SECONDARY BATTERIES | PERFORMANCE | MATERIALS SCIENCE, COATINGS & FILMS
Journal Article
Electrochimica Acta, ISSN 0013-4686, 07/2013, Volume 103, pp. 226 - 230
The capacity variation observed with a carbon-coated silicon monoxide (C-SiO) composite electrode has been explained by the microstructural changes evolved... 
Lithium-ion batteries | Failure mechanism | Carbon-coated silicon monoxide | Electrically conductive network | Microstructural changes | ELECTROCHEMISTRY | ANODE MATERIAL | PERFORMANCE | Electrodes | Cracks | Particulate composites | Electrolytes | Silicon | Alloying | Electrically conductive | Deposition
Journal Article
Journal of the Electrochemical Society, ISSN 0013-4651, 2004, Volume 151, Issue 6, pp. A933 - A937
Nanosized Sn4P3 with a layered structure was synthesized by a mechanochemical method, and electrochemical and local structural characteristics of tin phosphide... 
COP3 | ELECTROCHEMISTRY | ION BATTERIES | OXIDE | MATERIALS SCIENCE, COATINGS & FILMS
Journal Article
Electrochimica Acta, ISSN 0013-4686, 07/2013, Volume 103, pp. 226 - 230
The capacity variation observed with a carbon-coated silicon monoxide (C-SiO) composite electrode has been explained by the microstructural changes evolved... 
Electrodes | Lithium-ion batteries | Cracks | Particulate composites | Electrolytes | Silicon | Alloying | Electrically conductive | Deposition
Journal Article
ISSN 1754-5692, 4/2012, Volume 5, Issue 5, pp. 6895 - 6899
SiO 2 is one of the most abundant materials on Earth. It is cost-effective and also environmentally benign when used as an energy material. Although SiO 2 was... 
Journal Article
Journal of Power Sources, ISSN 0378-7753, 12/2014, Volume 267, pp. 739 - 743
This study reports a direct observation on the crack behavior of lithiated Si wafer. Three different Si wafers with , and axes are investigated, to compare the... 
Strain energy release | Lithiation/delithiation | Crack propagate | Silicon wafer | ELECTROCHEMISTRY | ENERGY & FUELS | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | LITHIATION | Silicon | Cracks | Fracture mechanics | Wafers | Battery | Orientation | Crack propagation | Crack initiation
Journal Article