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个人信息Personal Information
高级实验师 硕士生导师
性别:女
毕业院校:山东大学
学历:研究生(博士)毕业
学位:博士生
在职信息:在职
所在单位:材料科学与工程学院
入职时间:2017-07-26
办公地点:主楼414
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- [1] 刘仁博. High performance all-solid-state Li–Se battery based on selenium loaded on Ti3C2 MXene cathode. Green Energy and Resources, 2, 100058, 2024.
- [2] 李崇兴. Advanced all-solid-state lithium-selenium batteries enabled by selenium-nitrogen doped hierarchic meso-microporous carbon nanospheres composite cathode. CHINESE CHEMICAL LETTERS, 34, 108083, 2023.
- [3] 高静. Catalytic Performance of Amorphous and Crystalline RuO2 Loading on TiO2 Nanosheets in Lithium?Oxygen Batteries. ACS Appl. Nano Mater., 2023.
- [4] 赵涵. Progress and perspectives on two-dimensional silicon anodes for lithium-ion batteries. ChemPhysMater, 2, 1-19, 2023.
- [5] 朱雨廷. Carbon nanotube‐supported mixed‐valence Mn3O4 electrodes for high‐performance lithium‐oxygen batteries. ChemPhysMater, 1, 2023.
- [6] 王忠潇. Electrocatalytic hydrogen evolution performance of modified Ti3C2O2 doped with non-metal elements: A DFT study. ChemPhysMater, 1, 2022.
- [7] 朱雨廷. 2D Co-doped MnCr2O4 nanosheets as efficient bifunctional cathode materials for long-life Li–O2 batteries. Inorganic Chemistry Frontiers, 2023.
- [8] 刘清媛. Electrochemically prelithiated carbon anodes with regulated Na-ion intercalation behaviours for advanced sodium-ioni energy storage devices. Journal of Materials Chemistry A, 11, 2023.
- [9] 陈健超. Dilute Aqueous Hybrid Electrolyte with Regulated Core-Shell-Solvation Structure Endows Safe and Low-Cost Potassium-Ion Energy Storage Devices. Advanced functional materials, 33, 2023.
- [10] 惠晓斌. In Situ Integrating Highly Ionic Conductive LDH-Array@PVA Gel Electrolyte and MXene/Zn Anode for Dendrite-Free High-Performance Flexible Zn-Air Batteries. advanced energy materials, 2022.
- [11] 苗显光. Interface engineering of inorganic solid-state electrolytes for high-performance lithium metal batteries. Energy and Environmental Science, 13, 3780, 2020.
- [12] 王菲. Elaboration of Ni2P@C Composites with Hollow Porous Structure for Enhanced Overall Water Splitting. Advanced Materials Interfaces, 2022.
- [13] 田康东. In situ growth of Li4Ti5O12 nanoparticles on Ti3C2Tx MXene for efficient electron transfer as high-rate anode of Li ion battery. Electrochimica Acta, 140242, 2022.
- [14] 田康东. Superimposed Effect of La Doping and Structural Engineering to Achieve Oxygen-Deficient TiNb2O7 for Ultrafast Li-Ion Storage. ACS. Appl. Mater. Interfaces, 14, 10478, 2022.
- [15] 李崇兴. Designing Lithium Argyrodite Solid-State Electrolytes for High-Performance All-Solid-State Lithium Batteries. BATTERIES & SUPERCAPS, 5, 2022.
- [16] 丁明洁. Metal-Organic Framework-Derived Porous NiCo-Layered Double Hydroxide@MnO2 Hierarchical Nanostructures as Catalytic Cathodes for Long-Life Li-O-2 Batteries. ACS Appl. Energy Mater. , 4, 61, 2021.
- [17] 王成祥. Layered materials for supercapacitors and batteries: Applications and challenges. PROGRESS IN MATERIALS SCIENCE, 118, 2021.
- [18] 尹龙卫 and 张志薇. Se-doped Bi2S3 nanoneedles grown on the three-dimensional carbon foam as a self-supported anode for high-performance sodium ion batteries. JOURNAL OF ALLOYS AND COMPOUNDS , 2020.
- [19] 尹龙卫 and 张志薇. Bi2S3-CoS@C core- shell structure derived from ZIF-67 as anodes for high performance lithium-ion batteries. JOURNAL OF ALLOYS AND COMPOUNDS , 5, 2020.
- [20] 王成祥 , 尹龙卫 and 李群. Low-Temperature Solution-Based Phosphorization Reaction Route to Sn 4 P 3 /Reduced Graphene Oxide Nanohybrids as Anodes for Sodium Ion Batteries. Advanced Energy Materials, 6, 1600376, 2016.