副教授
性别:女
在职信息:在职
所在单位:晶体材料研究院
入职时间:2005-07-13
访问量:
最后更新时间:..
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[1]
王珍彦.
Stable lithium storage behavior observed in Mn-doped MgCo<sub>2</sub>O<sub>4</sub> anode materials.
Materials chemistry and physics,
294,
2023.
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[2]
王珍彦.
Stable lithium storage behavior observed in Mn-doped MgCo2O4 anode materials.
Materials Chemistry and Physics,
127027,
2023.
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[3]
李雪松.
Obtaining Ambient-Stable MXene Ti3C2Tx through Avoidance of Surface Oxidation Active Sites.
Advanced Materials Interfaces,
2022.
-
[4]
刘超.
Amorphous Germanium Nanomaterials as High-Performance Anode for Lithium and Sodium-Ion Batteries.
Advanced Materials Technologies,
8,
2201817,
2023.
-
[5]
刘超.
Efficient preparation of uniform germanane nanosheets as anode with high-cycling stability in lithium-ion batteries.
Journal of Colloid and interface science,
650,
236,
2023.
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[6]
赵相炎.
Surface modification with lithium silicate to enhance electrochemical performance for high-valence metal oxide compound MnTeMoO6.
CrystEngComm,
6762,
2022.
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[7]
庄吉.
Bimetallic sulfide ZnMoS4-x/C nanocoral synthesized through glucose-assisted supercritical water system and its high performance for lithium-ion batteries.
ELECTROCHIMICA ACTA,
411,
2022.
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[8]
李雪松.
Obtaining Ambient‐Stable MXene Ti3C2Tx through Avoidance of Surface Oxidation Active Sites.
Advanced Materials Interfaces,
2022.
-
[9]
王珍彦.
MgMn2O4 anode materials for Lithium-ion batteries: Synthesis and cationic distribution study.
VACUUM,
111075,
2022.
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[10]
王珍彦.
Synthesis of porous Mn-based spinel microspheres with enhanced lithium storage properties.
JOURNAL OF ALLOYS AND COMPOUNDS ,
166237,
2022.
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[11]
王珍彦.
Synthesis, Electronic Structure, and Electrochemical Properties of the Cubic Mg2MnO4 Spinel with Porous-Spongy Structure.
NANOMATERIALS,
11,
2021.
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[12]
艾黎.
Facile synthesis and cation distribution of MgCo2O4 microspheres as anode material for lithium ion batteries.
VACUUM Journal,
192,
2021.
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[13]
刘阳阳.
One-pot synthesis of soft carbon-combined Li2TiSiO5 composites with oxygen vacancies as long life and high rate anodes for lithium-ion batteries.
ELECTROCHIMICA ACTA,
387,
2021.
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[14]
朱赫.
Developing hydrothermal fabrication and energy storage applications for MTeMoO6 (M=Zn, Mg, Mn).
JOURNAL OF SUPERCRITICAL FLUIDS,
171,
2021.
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[15]
张梦起.
Bimetallic Selenide LiInSe2 Decorated with a Uniform Carbon Layer with Superior Lithium Storage Performance.
ChemElectroChem,
2020.
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[16]
刘超.
Germanium Crystalline Nanomaterials for Li-Ion Storage Prepared by Decomposing LiZnGe in Air.
ACS Applied Materials & Interfaces,
2020.
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[17]
张玉鹏.
Oxygen vacancy regulated TiNb2O7 compound with enhanced electrochemical performance used as anode material in Li-ion batteries.
ELECTROCHIMICA ACTA,
330,
2020.
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[18]
朱赫.
Enabling improved lithium storage properties of novel LiNbMoO6 anode through co-modification by uniform Li2SiO3 thin film and oxygen vacancies.
ELECTROCHIMICA ACTA,
360,
2020.
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[19]
段秀兰.
Synthesis, Electronic Structure, and Electrochemical Properties of the Cubic Mg2MnO4 Spinel with Porous-Spongy Structure.
Nanomaterials ,
1122,
2021.
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[20]
刘阳 , 王蕾 , 李博 , 陶绪堂 and 刘阳阳.
Li4Ti5O12/TiO2 dual-phase anode materials synthesized in supercritical water-methanol system and investigations on its superior electrochemical performance for lithium-ion batteries.
JOURNAL OF SUPERCRITICAL FLUIDS,
154,
2019.
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