One-pot facile synthesis of ant-cave-structured metal oxide-carbon microballs by continuous process for use as anode materials in Li-ion batteries.
about
Electrochemical properties of cobalt hydroxychloride microspheres as a new anode material for Li-ion batteriesRapid continuous synthesis of spherical reduced graphene ball-nickel oxide composite for lithium ion batteries.Electrochemical properties of tungsten sulfide-carbon composite microspheres prepared by spray pyrolysis.Electrochemical properties of yolk-shell structured ZnFe2O4 powders prepared by a simple spray drying process as anode material for lithium-ion battery.Design and fabrication of new nanostructured SnO2-carbon composite microspheres for fast and stable lithium storage performance.One-pot synthesis of manganese oxide-carbon composite microspheres with three dimensional channels for Li-ion batteriesConversion Reaction-Based Oxide Nanomaterials for Lithium Ion Battery Anodes.Synthesis and applications of porous non-silica metal oxide submicrospheres.Nanostructured Materials Synthesis Using Ultrasound.Understanding the effects of 3D porous architectures on promoting lithium or sodium intercalation in iodine/C cathodes synthesized via a biochemistry-enabled strategy.Biochemistry-directed hollow porous microspheres: bottom-up self-assembled polyanion-based cathodes for sodium ion batteries.Synthesis of hollow cobalt oxide nanopowders by a salt-assisted spray pyrolysis process applying nanoscale Kirkendall diffusion and their electrochemical properties.Lithium Storage in Microstructures of Amorphous Mixed-Valence Vanadium Oxide as Anode Materials.Design and synthesis of micron-sized spherical aggregates composed of hollow Fe2O3 nanospheres for use in lithium-ion batteries.One-pot method for synthesizing spherical-like metal sulfide-reduced graphene oxide composite powders with superior electrochemical properties for lithium-ion batteries.A new concept for obtaining SnO2 fiber-in-tube nanostructures with superior electrochemical properties.Electrochemical properties of yolk-shell-structured Zn-Fe-S multicomponent sulfide materials with a 1:2 Zn/Fe molar ratio.Oxygen bubble-templated hierarchical porous ε-MnO2 as a superior catalyst for rechargeable Li-O2 batteries.Electrochemical properties of tin oxide flake/reduced graphene oxide/carbon composite powders as anode materials for lithium-ion batteries.One-Pot Hydrothermal Synthesis of FeMoO₄ Nanocubes as an Anode Material for Lithium-Ion Batteries with Excellent Electrochemical Performance.Polystyrene-Templated Aerosol Synthesis of MoS2 -Amorphous Carbon Composite with Open Macropores as Battery Electrode.3D MoS2-Graphene Microspheres Consisting of Multiple Nanospheres with Superior Sodium Ion Storage PropertiesSuperior Lithium-Ion Storage Properties of Si-Based Composite Powders with Unique Si@Carbon@Void@Graphene ConfigurationSynergetic compositional and morphological effects for improved Na+storage properties of Ni3Co6S8-reduced graphene oxide composite powdersMacroporous Fe3O4/Carbon Composite Microspheres with a Short Li+Diffusion Pathway for the Fast Charge/Discharge of Lithium Ion BatteriesUniform decoration of vanadium oxide nanocrystals on reduced graphene-oxide balls by an aerosol process for lithium-ion battery cathode material.Electrochemical properties of fiber-in-tube- and filled-structured TiO2 nanofiber anode materials for lithium-ion batteries.
P2860
Q34106447-EAC733AA-163B-48F8-A480-04D3F144DBBFQ34106471-88744869-24FA-42B3-8506-8A8FFD237934Q34106500-7C6D3BB9-5CB4-418E-BF41-F5B165ADB5C7Q34106506-4D2C83F2-0C02-47AA-B0D6-6AD261A4852BQ34420517-3136A082-9910-42EE-B696-DC75AC6118CEQ37743828-47FA7279-03D2-4AEC-A3D3-A12A77AD6A9FQ38656111-F8162537-444F-41A9-A299-503101A296A8Q38976874-4C80A3A9-BE5B-49A9-9D2F-262358519572Q39081496-DF7074C6-FE02-494F-BEF6-E088290BBA94Q46343588-FCB97636-49BF-4123-9BCE-CC60D0B60906Q50865546-A341A3DC-D91D-4D71-98D4-622FBF62B3B6Q51644312-4D235335-80C4-44F3-8D5C-910C61D2763CQ53223441-0951C5FA-1403-4FCC-8776-075027774A27Q53256413-C1E19F39-3490-4C47-8F37-0DBB56EF8B12Q53265546-4CA5DBE2-6C92-4A38-8A89-BB5927AE3A57Q53377790-EDF682B1-A024-44F2-904D-D5D546B57190Q53384169-958F72ED-FD57-4C38-B4BA-8C7743C1FDC8Q53427850-32A8342E-12FE-4565-9F12-5641FDB76691Q53430337-DE180015-7033-4B67-88EA-42D5C37FE398Q53438757-A20F9364-5D36-4529-BE30-9433197F2141Q53459138-82F96281-8D45-438F-9420-F1343B3B22BAQ53525256-811C2FDC-C100-45E0-AE3A-BCF3CB52FF7CQ53525314-37F66739-FC11-45BA-BA33-781B0FFEA817Q53525333-5ED59BBE-06FC-440C-8B13-C3575D9A5AC0Q53525581-5232D001-679B-45E9-AF50-C04F80E9627BQ53525627-D03A9193-F932-4352-A167-7ABA828B7B1CQ53835301-8A4EC07F-748F-4959-B233-306E6A8BF734
P2860
One-pot facile synthesis of ant-cave-structured metal oxide-carbon microballs by continuous process for use as anode materials in Li-ion batteries.
description
2013 nî lūn-bûn
@nan
2013年の論文
@ja
2013年学术文章
@wuu
2013年学术文章
@zh
2013年学术文章
@zh-cn
2013年学术文章
@zh-hans
2013年学术文章
@zh-my
2013年学术文章
@zh-sg
2013年學術文章
@yue
2013年學術文章
@zh-hant
name
One-pot facile synthesis of an ...... materials in Li-ion batteries.
@en
One-pot facile synthesis of an ...... materials in Li-ion batteries.
@nl
type
label
One-pot facile synthesis of an ...... materials in Li-ion batteries.
@en
One-pot facile synthesis of an ...... materials in Li-ion batteries.
@nl
prefLabel
One-pot facile synthesis of an ...... materials in Li-ion batteries.
@en
One-pot facile synthesis of an ...... materials in Li-ion batteries.
@nl
P356
P1433
P1476
One-pot facile synthesis of an ...... materials in Li-ion batteries
@en
P2093
Kyeong Youl Jung
Seung Bin Park
P304
P356
10.1021/NL4030352
P407
P577
2013-10-24T00:00:00Z