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Publication DateJournal of the American Chemical Society, ISSN 0002-7863, 04/2014, Volume 136, Issue 17, pp. 6385 - 6394
A combination of density functional theory (DFT) calculations and experiments is used to shed light on the relation between surface structure and Li-ion...
LITHIUM ADSORPTION | INSERTION | ELECTRODE MATERIALS | ANODE MATERIALS | GRAPHENE | DIFFUSION | OXIDES | INTERCALATION | BATTERIES | CHEMISTRY, MULTIDISCIPLINARY | CHALLENGES | Density functionals | Transition metals | Usage | Research | Structure | Carbides
LITHIUM ADSORPTION | INSERTION | ELECTRODE MATERIALS | ANODE MATERIALS | GRAPHENE | DIFFUSION | OXIDES | INTERCALATION | BATTERIES | CHEMISTRY, MULTIDISCIPLINARY | CHALLENGES | Density functionals | Transition metals | Usage | Research | Structure | Carbides
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Loading RightsAdvanced Energy Materials, ISSN 1614-6832, 09/2016, Volume 6, Issue 18, p. n/a
A 3D‐printing technology and printed 3D lithium‐ion batteries (3D‐printed LIBs) based on LiMn0.21Fe0.79PO4@C (LMFP) nanocrystal cathodes are developed to...
3D‐printing | LiMn1−xFexPO4 | rate performance | equivalent diffusion coefficient | 3D‐printed lithium ion batteries (LIBs) | LiMn | 3D-printing | 3D-printed lithium ion batteries (LIBs) | VISUALIZATION | LIFEPO4 ELECTRODE | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | MICROBATTERIES | ENERGY & FUELS | KINETICS | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | DIFFUSION | ARCHITECTURES | CHARGE | Markov processes | Electrochemistry | Electrolytes | Batteries | Analysis | Lithium
3D‐printing | LiMn1−xFexPO4 | rate performance | equivalent diffusion coefficient | 3D‐printed lithium ion batteries (LIBs) | LiMn | 3D-printing | 3D-printed lithium ion batteries (LIBs) | VISUALIZATION | LIFEPO4 ELECTRODE | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | MICROBATTERIES | ENERGY & FUELS | KINETICS | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | DIFFUSION | ARCHITECTURES | CHARGE | Markov processes | Electrochemistry | Electrolytes | Batteries | Analysis | Lithium
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Loading RightsAdvanced Materials, ISSN 0935-9648, 12/2017, Volume 29, Issue 48, pp. 1700587 - n/a
It is shown that Prussian blue analogues (PBAs) can be a very competitive sulfur host for lithium–sulfur (Li–S) batteries. Sulfur stored in the large...
lithium–sulfur batteries | open framework structure | Lewis acid–base interaction | sodium iron cyanide | CATALYTIC GROWTH | ROOM-TEMPERATURE | PHYSICS, CONDENSED MATTER | ION BATTERIES | PHYSICS, APPLIED | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | LI-S BATTERIES | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | Lewis acid-base interaction | lithium-sulfur batteries | POROUS CARBON | CHEMISTRY, MULTIDISCIPLINARY | ONE-STEP | METAL-ORGANIC FRAMEWORKS | LONG-LIFE | COMPOSITE CATHODES | Sulfur compounds | Electrochemical reactions | Iron compounds | Analysis | Batteries | Sulfur | Electric properties | Lewis acid | Electrochemical analysis | Corrosion inhibitors | Pigments | Polysulfides | Storage batteries | Cathodes | Lithium sulfur batteries
lithium–sulfur batteries | open framework structure | Lewis acid–base interaction | sodium iron cyanide | CATALYTIC GROWTH | ROOM-TEMPERATURE | PHYSICS, CONDENSED MATTER | ION BATTERIES | PHYSICS, APPLIED | PERFORMANCE | MATERIALS SCIENCE, MULTIDISCIPLINARY | LI-S BATTERIES | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | Lewis acid-base interaction | lithium-sulfur batteries | POROUS CARBON | CHEMISTRY, MULTIDISCIPLINARY | ONE-STEP | METAL-ORGANIC FRAMEWORKS | LONG-LIFE | COMPOSITE CATHODES | Sulfur compounds | Electrochemical reactions | Iron compounds | Analysis | Batteries | Sulfur | Electric properties | Lewis acid | Electrochemical analysis | Corrosion inhibitors | Pigments | Polysulfides | Storage batteries | Cathodes | Lithium sulfur batteries
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Loading RightsProceedings of the National Academy of Sciences of the United States of America, ISSN 0027-8424, 7/2012, Volume 109, Issue 28, pp. 11372 - 11377
Network studies of human brain structural connectivity have identified a specific set of brain regions that are both highly connected and highly central....
Total costs | Brain | Total communication | Neuroscience | Traffic | Connectivity | Region of integration | Topology | Global communication | Connected regions | Tractography | Graph | Connectome | TRACTS | MULTIDISCIPLINARY SCIENCES | FIBER PATHWAYS | graph | CEREBRAL-CORTEX | ORGANIZATION | DENSITY | tractography | CONNECTIVITY | connectome | SYSTEMS | HUBS | COMPLEX NETWORKS | DTI TRACTOGRAPHY | Diffusion Tensor Imaging - methods | Algorithms | Models, Biological | Humans | Neurons - physiology | Brain Mapping - methods | Models, Neurological | Models, Statistical | Brain - physiology | Neural Pathways | Communication | Neural circuitry | Brain research | Research | Biological Sciences
Total costs | Brain | Total communication | Neuroscience | Traffic | Connectivity | Region of integration | Topology | Global communication | Connected regions | Tractography | Graph | Connectome | TRACTS | MULTIDISCIPLINARY SCIENCES | FIBER PATHWAYS | graph | CEREBRAL-CORTEX | ORGANIZATION | DENSITY | tractography | CONNECTIVITY | connectome | SYSTEMS | HUBS | COMPLEX NETWORKS | DTI TRACTOGRAPHY | Diffusion Tensor Imaging - methods | Algorithms | Models, Biological | Humans | Neurons - physiology | Brain Mapping - methods | Models, Neurological | Models, Statistical | Brain - physiology | Neural Pathways | Communication | Neural circuitry | Brain research | Research | Biological Sciences
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Loading RightsAdvanced Materials, ISSN 0935-9648, 01/2018, Volume 30, Issue 4, pp. 1700104 - n/a
The intercalation of potassium ions into graphite is demonstrated to be feasible, while the electrochemical performance of potassium‐ion batteries (KIBs)...
nitrogen and oxygen dual‐doped hard carbon | anode materials | hierarchical porous structure | NH2‐MIL‐101(Al) | capacitance contribution | potassium‐ion battery | nitrogen and oxygen dual-doped hard carbon | MIL-101(Al) | potassium-ion battery | HIGH-PERFORMANCE | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | METAL-ORGANIC FRAMEWORK | NANOPOROUS CARBON | NANOSCIENCE & NANOTECHNOLOGY | hierarchical porous structures | POROUS CARBON | CHEMISTRY, MULTIDISCIPLINARY | HIGH-RATE ANODE | HIGH-SURFACE-AREA | GRAPHITIC CARBON | NEGATIVE ELECTRODES | NH2-MIL-101(Al) | ELECTROCHEMICAL ENERGY-STORAGE | potassium-ion batteries | FACILE PREPARATION | Electrochemistry | Analysis | Batteries | Carbonization | Interlayers | Electrochemical analysis | Capacitance | Stability analysis | Intercalation | Nitrogen | Potassium | Ion storage | Quantitative analysis
nitrogen and oxygen dual‐doped hard carbon | anode materials | hierarchical porous structure | NH2‐MIL‐101(Al) | capacitance contribution | potassium‐ion battery | nitrogen and oxygen dual-doped hard carbon | MIL-101(Al) | potassium-ion battery | HIGH-PERFORMANCE | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | METAL-ORGANIC FRAMEWORK | NANOPOROUS CARBON | NANOSCIENCE & NANOTECHNOLOGY | hierarchical porous structures | POROUS CARBON | CHEMISTRY, MULTIDISCIPLINARY | HIGH-RATE ANODE | HIGH-SURFACE-AREA | GRAPHITIC CARBON | NEGATIVE ELECTRODES | NH2-MIL-101(Al) | ELECTROCHEMICAL ENERGY-STORAGE | potassium-ion batteries | FACILE PREPARATION | Electrochemistry | Analysis | Batteries | Carbonization | Interlayers | Electrochemical analysis | Capacitance | Stability analysis | Intercalation | Nitrogen | Potassium | Ion storage | Quantitative analysis
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Loading RightsEnergy & Environmental Science, ISSN 1754-5692, 2016, Volume 9, Issue 7, pp. 2273 - 2277
Magnesium batteries are energy storage systems that potentially offer high energy density owing to their ability to employ magnesium metal as a negative...
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Loading RightsResearch Policy, ISSN 0048-7333, 2008, Volume 37, Issue 8, pp. 1224 - 1240
This paper analyzes two elements necessary for building an efficient regional technology-transfer system between universities and firms, namely, an...
Intermediary | Absorptive capacity | SME | University–industry linkage | Industrial cluster | University-industry linkage | industrial cluster | MANAGEMENT | KNOWLEDGE | INNOVATION | university-industry linkage | intermediary | absorptive capacity | PLANNING & DEVELOPMENT
Intermediary | Absorptive capacity | SME | University–industry linkage | Industrial cluster | University-industry linkage | industrial cluster | MANAGEMENT | KNOWLEDGE | INNOVATION | university-industry linkage | intermediary | absorptive capacity | PLANNING & DEVELOPMENT
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Loading RightsEnergy and Environmental Science, ISSN 1754-5692, 07/2016, Volume 9, Issue 7, pp. 2273 - 2277
Magnesium batteries are energy storage systems that potentially offer high energy density owing to their ability to employ magnesium metal as a negative...
INSERTION | ENERGY & FUELS | RECHARGEABLE MAGNESIUM BATTERIES | CRYSTAL-STRUCTURE | IONS | ELECTROLYTE-SOLUTIONS | CHEMISTRY, MULTIDISCIPLINARY | ENGINEERING, CHEMICAL | CHALLENGE | ENVIRONMENTAL SCIENCES | LITHIUM INTERCALATION | TITANIUM DISULFIDE | DIFFUSION | MO6S8 CHEVREL-PHASE | Electrodes | Cycles | Diffraction | Mathematical analysis | Benchmarking | Magnesium | Storage batteries | Energy storage
INSERTION | ENERGY & FUELS | RECHARGEABLE MAGNESIUM BATTERIES | CRYSTAL-STRUCTURE | IONS | ELECTROLYTE-SOLUTIONS | CHEMISTRY, MULTIDISCIPLINARY | ENGINEERING, CHEMICAL | CHALLENGE | ENVIRONMENTAL SCIENCES | LITHIUM INTERCALATION | TITANIUM DISULFIDE | DIFFUSION | MO6S8 CHEVREL-PHASE | Electrodes | Cycles | Diffraction | Mathematical analysis | Benchmarking | Magnesium | Storage batteries | Energy storage
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Achieving Insertion‐Like Capacity at Ultrahigh Rate via Tunable Surface Pseudocapacitance
Advanced Materials, ISSN 0935-9648, 03/2018, Volume 30, Issue 12, pp. 1706640 - n/a
The insertion/deinsertion mechanism enables plenty of charge‐storage sites in the bulk phase to be accessible to intercalated ions, giving rise to at least one...
hematite | ultrahigh rate | chemical adsorption | supercapacitors | dual ions | oxygen vacancies | HIGH-PERFORMANCE | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | GRAPHENE | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | INTERCALATION | FE2O3 | CHEMISTRY, MULTIDISCIPLINARY | DENSITY | NEGATIVE ELECTRODES | ELECTROCHEMICAL ENERGY-STORAGE | ANODE | Hematite | Adsorption | Capacitors | Computer storage devices | Diffusion rate | Quantum dots | Insertion | Charge transport | Sodium sulfates | Density | Sodium sulfites | Manganese dioxide | Ion diffusion | Flux density | Redox reactions | Reaction kinetics | Electrolytes | Energy storage
hematite | ultrahigh rate | chemical adsorption | supercapacitors | dual ions | oxygen vacancies | HIGH-PERFORMANCE | PHYSICS, CONDENSED MATTER | PHYSICS, APPLIED | MATERIALS SCIENCE, MULTIDISCIPLINARY | GRAPHENE | CHEMISTRY, PHYSICAL | NANOSCIENCE & NANOTECHNOLOGY | INTERCALATION | FE2O3 | CHEMISTRY, MULTIDISCIPLINARY | DENSITY | NEGATIVE ELECTRODES | ELECTROCHEMICAL ENERGY-STORAGE | ANODE | Hematite | Adsorption | Capacitors | Computer storage devices | Diffusion rate | Quantum dots | Insertion | Charge transport | Sodium sulfates | Density | Sodium sulfites | Manganese dioxide | Ion diffusion | Flux density | Redox reactions | Reaction kinetics | Electrolytes | Energy storage
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Loading RightsAdvanced Materials, ISSN 0935-9648, 01/2018, Volume 30, Issue 1, p. n/a
Low‐cost, environment‐friendly aqueous Zn batteries have great potential for large‐scale energy storage, but the intercalation of zinc ions in the cathode...
structural water | rate capability | energy storage | zinc batteries | Electrode materials | Flux density | Low cost | Lithium | Lubrication | Vanadium pentoxide | Intercalation | Zinc | Storage batteries | Cathodes | Rechargeable batteries | Energy storage
structural water | rate capability | energy storage | zinc batteries | Electrode materials | Flux density | Low cost | Lithium | Lubrication | Vanadium pentoxide | Intercalation | Zinc | Storage batteries | Cathodes | Rechargeable batteries | Energy storage
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Loading RightsJournal of the American Chemical Society, ISSN 0002-7863, 11/2014, Volume 136, Issue 46, pp. 16270 - 16276
Two-dimensional transition metal carbides (termed MXenes) are a new family of compounds generating considerable interest due to their unique properties and...
LITHIUM DIFFUSION | ELECTRONIC-PROPERTIES | LI-ION | VOLTAGE | 1ST-PRINCIPLES | PERFORMANCE | NANOMATERIALS | ANODE | DENSITY-FUNCTIONAL THEORY | CHEMISTRY, MULTIDISCIPLINARY | MXENES | Transition metals | Carbides | Sodium compounds | Lithium compounds | Electric properties
LITHIUM DIFFUSION | ELECTRONIC-PROPERTIES | LI-ION | VOLTAGE | 1ST-PRINCIPLES | PERFORMANCE | NANOMATERIALS | ANODE | DENSITY-FUNCTIONAL THEORY | CHEMISTRY, MULTIDISCIPLINARY | MXENES | Transition metals | Carbides | Sodium compounds | Lithium compounds | Electric properties
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Loading RightsAdvanced Energy Materials, ISSN 1614-6832, 05/2016, Volume 6, Issue 10, pp. 1502409 - n/a
Phosphorus‐based materials are promising for high‐performance lithium‐ion battery (LIB) applications due to their high theoretical specific capacity....
anode materials | lithium‐ion batteries | phosphorus composite nanosheets | solvothermal reaction | high‐rate | high-rate | lithium-ion batteries | PHYSICS, CONDENSED MATTER | NEGATIVE ELECTRODE MATERIAL | PHYSICS, APPLIED | ENERGY & FUELS | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | RED PHOSPHORUS | NANOPARTICLES | CARBON NANOTUBE COMPOSITE | LONG-LIFE | HIGH-PERFORMANCE ANODE | BLACK PHOSPHORUS | ENERGY-STORAGE | DOPED GRAPHENE SHEETS | ELECTROCHEMICAL PERFORMANCE | Batteries | Lithium | Phosphorus | Electrodes | Lithium-ion batteries | Synthesis (chemistry) | Transformations | Nanostructure | Current density | Rechargeable batteries
anode materials | lithium‐ion batteries | phosphorus composite nanosheets | solvothermal reaction | high‐rate | high-rate | lithium-ion batteries | PHYSICS, CONDENSED MATTER | NEGATIVE ELECTRODE MATERIAL | PHYSICS, APPLIED | ENERGY & FUELS | MATERIALS SCIENCE, MULTIDISCIPLINARY | CHEMISTRY, PHYSICAL | RED PHOSPHORUS | NANOPARTICLES | CARBON NANOTUBE COMPOSITE | LONG-LIFE | HIGH-PERFORMANCE ANODE | BLACK PHOSPHORUS | ENERGY-STORAGE | DOPED GRAPHENE SHEETS | ELECTROCHEMICAL PERFORMANCE | Batteries | Lithium | Phosphorus | Electrodes | Lithium-ion batteries | Synthesis (chemistry) | Transformations | Nanostructure | Current density | Rechargeable batteries
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Loading RightsJournal of Chromatography A, ISSN 0021-9673, 2008, Volume 1184, Issue 1, pp. 107 - 130
The currently existing knowledge about peak capacity in unidimensional separations is reviewed. The majority of the paper is dedicated to reversed-phase...
Peak overlap | Peptides | Gradient chromatography | Ion-exchange chromatography | Peak compression | Oligonucleotides | Size-exclusion chromatography | Peak capacity | Resolution | gradient chromatography | CHEMISTRY, ANALYTICAL | PROTEIN IDENTIFICATION TECHNOLOGY | size-exclusion chromatography | BIOCHEMICAL RESEARCH METHODS | DIFFUSION-COEFFICIENTS | peptides | resolution | COLUMN LENGTH | ion-exchange chromatography | PERFORMANCE LIQUID-CHROMATOGRAPHY | MULTICOMPONENT CHROMATOGRAMS | GRADIENT ELUTION CHROMATOGRAPHY |
Peak overlap | Peptides | Gradient chromatography | Ion-exchange chromatography | Peak compression | Oligonucleotides | Size-exclusion chromatography | Peak capacity | Resolution | gradient chromatography | CHEMISTRY, ANALYTICAL | PROTEIN IDENTIFICATION TECHNOLOGY | size-exclusion chromatography | BIOCHEMICAL RESEARCH METHODS | DIFFUSION-COEFFICIENTS | peptides | resolution | COLUMN LENGTH | ion-exchange chromatography | PERFORMANCE LIQUID-CHROMATOGRAPHY | MULTICOMPONENT CHROMATOGRAMS | GRADIENT ELUTION CHROMATOGRAPHY |