个人简历
致力于新能源纳米储能材料及器件研究,包括锂/钠/锌离子电池、液流电池等微型及柔性集成器件。主要学术成就包括:(1)发展了纳米线精细构筑集成技术;(2)纳米线化学预锂/钠化技术及机理研究;(3)电输运性能与结构稳定性协同提升设计方法。担任国际期刊审稿人,至今,在Advanced Materials、Energy& Environmental Science、Angewandte Chemie International Edition、Nano Letter、Nano Enegry、Advanced Functional Materials等国际高水平期刊上发表SCI论文40余篇,论文引用>3000次。获批中国专利10项,美国专利1项。主持和参与国家自级课题3项,横向课题3项,参与省级课题1项。获批湖北省楚天学子。
SELECTED PUBLICATIONS
Electrochemistry and Energy Storage
1. Yifan Dong; Liqiang Mai*; Song Jin*, et al. Low Temperature Molten Salt Production of Silicon Nanowires by Electrochemical Reduction of CaSiO3. Angewandte Chemie International Edition, 2017, 56, 14453-14457. (ESI Hot Paper)
2. Yifan Dong; Shuo Li; Liqiang Mai*, et al. Hierarchical zigzag Na1.25V3O8 nanowires with topotactically encoded superior performance for sodium-ion battery cathodes. Energy & Environmental Science, 2015, 8, 1267-1275. 424. (ESI 1% hot paper)
3. Yifan Dong, Junling Xu, Ching Ping Wong*, et al. Self-assembled NaV6O15 flower-like microstructures for high-capacity and long-life sodium-ion battery cathode. Nano Energy, 2020, 68, 104357.
4. Yifan Dong; Liqiang Mai*; Song Jin*, et al. Air-Stable Porous Fe2N Encapsulated in Carbon Microboxes with High-Rate and Long-Life Lithium Storage Performance. Nano Letters, 2017, 17(9):5740-5746. (Top 5 downloaded paper for the volume)
5. Yifan Dong; Xiaoming Xu; and Liqiang Mai*, et al. Inhibiting effect of Na+ pre-intercalation in MoO3 nanobelts with enhanced electrochemical performance. Nano Energy, 2015, 15, 145–152. 424.
6. Yifan Dong; Shuo Li; Liqiang Mai*, et al. Wrinkled-graphene enriched MoO3 nanobelts with increased conductivity and reduced stress for enhanced electrochemical performance. Physical Chemistry Chemical Physics, 2013,15, 17165-17170.
7. Kangning Zhao1; Mingying Wen1; Yifan Dong1; Liqiang Mai*, et al. Thermal Induced Strain Relaxation of 1D Iron Oxide for Solid Electrolyte Interphase Control and Lithium Storage Improvement. Advanced Energy Materials, 2017, 7, 1601582.
8. Lei Wang1; Yifan Dong1; Liqiang Mai*, et al. Interconnected LiCuVO4 networks with in situ Cu generation as high-performance lithium-ion battery anode. Physical Chemistry Chemical Physics, 2017, 19, 13341.
9. Shipra Raj1, Yifan Dong1, Liqiang Mai, Song Jin, Poulomi Roy*. NiCo2O4-NiCo2S4 Hybrid Nanostructures as High Performance Anode Materials for Lithium Ion Batteries, ChemistrySelect, 2018, 3, 2315. DOI: 10.1002/slct.201702919
10. Shuo Li; Yifan Dong; Liqiang Mai*, et al. Effect of Carbon Matrix Dimensions on the Electrochemical Properties of Na3V2(PO4)3 Nanograins for High-Performance Symmetric Sodium-Ion Batteries, Advanced Materials, 2014, 26, 3545-3553. (ESI top 0.1% paper)
Quantum dot materials and devices
1. Yifan Dong, Ching Ping Wong, Andrey L Rogach, Ni Zhao*, et al. Solution Processed Hybrid Polymer: HgTe Quantum Dot Phototransistor with High Sensitivity and Fast Infrared Response up to 2400 nm at Room Temperature. Advanced Science, 2020, 2000068.
2. AA Sergeev, Yifan Dong, Ni Zhao, SV Kershaw, AL Rogach*, et al. Tailoring spontaneous infrared emission of HgTe quantum dots with laser-printed plasmonic arrays. Light: Science & Applications, 2019, 9, 1-10.
Perovskite materials
1. Nan Li, Lei Song, Yongheng Jia, Yifan Dong, Ni Zhao*, et al. Stabilizing Perovskite Light Emitting Diodes by Incorporation of Binary Alkali Cations. Advanced Materials, 2020, 1907786.
2. Jie Cao, Junke Jiang, Nan Li, Yifan Dong, Ni Zhao*, et al. Alkali-Cation-Enhanced Benzylammonium Passivation for Efficient and Stable Perovskite Solar Cells Fabricated Through Sequential Deposition. Journal of Materials Chemistry A (under review)
Conference
· 2017, 254th ACS National Meeting & Exposition, Washington DC, US (Best oral presentation)
· 2017, MRS Spring Meeting & Exhibit, Phoenix, AZ, US (Best poster)
· 2017, ECS Twin Cities Symposium, Saint Paul, MN, US
· 2017, 2017 WARF Discovery Challenge, Madison, WI, US
· 2016, The 18th International Meeting on Lithium Batteries, Chicago, IL, US
授权专利
1. 石墨烯卷曲三氧化钼纳米带及其制备方法和应用. CN201310353388.9
2. NaCuVO4纳米颗粒及其制备方法和应用. CN201510251269.1
3. 三维导电增强磷酸钒锂纳米球及其制备方法和应用. CN201310074718.0
4. 高性能磷酸钒钠对称型钠离子电池材料及其制备方法和应用. CN201410037623.6
5. 钠离子预嵌入型MoO3纳米带及其制备方法和应用. CN201510069866.2
6. 分级介孔钒酸钠弯折纳米线及其制备方法和应用. CN201410745642.4
7. Sustainable production of silicon by electrochemical reduction of CaSiO3 in molten salts at low temperatures. WARF Ref. No. Pl70200USO1( 美国专利)
教育经历
[1] 2015.9-2017.9
University of Wisconsin Madison
|
材料化学
|
工学博士学位
|
博士研究生
Advisor: Prof. Song Jin
Research: Molten-salt electrochemistry for Si production; polysulfide catalyst for redox flow batteries
[2] 2014.9-2017.12
Wuhan University of Tech
|
材料科学与工程
|
工学博士学位
|
博士研究生
Advisor: Prof. Liqiang Mai
Research: Novel electrochemical energy storage materials and systems
[3] 2014.1-2014.6
National Taiwan University | 材料科学与工程 | 工学硕士学位 | 硕士研究生
[4] 2011.9-2013.12
Wuhan University of Tech
|
材料科学与工程
|
工学硕士学位
|
硕士研究生
Advisor: Prof. Liqiang Mai
Research: Novel electrochemical energy storage materials and systems
工作经历
[1] 2018.1-2018.6
University of Wisconsin-Madison
|
Visiting Scholar
|
Advisor: Prof. Song Jin
Research: Earth-abundant electrocatalysts for hydrogen peroxide production
[2] 2018.7-2019.7
The Chinese University of Hong Kong
|
Electronics Enginering Department
|
Postdoc Fellow
|
Advisor: Prof. Ching-Ping Wong & Ni Zhao
Research: Earth-abundant electrocatalysts for hydrogen peroxide production
研究方向
[1] 柔性器件
[2] 熔盐化学反应工程
[3] 光伏器件
[4] 新能源材料与器件
联系方式
[1] 邮编:
[2] 传真:
[3] 通讯/办公地址:
[4] 办公室电话:
[5] 移动电话:
[6] 邮箱:
团队成员
新型微纳储能集成化器件实验室
Our research team aims to develop scientific and technological approaches required to understand the eletrochemistry properties and fundamental physics of novel nanostructured devices, and to apply the fundamental findings to the development of integrated devices.