Fudan nano energy storage

All-Climate Iron-Based Sodium-Ion Full Cell for Energy Storage

Department of Chemistry, Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials, Institute of New Energy, Fudan University, Shanghai, 200433 P. R. China Hunan Province Key Laboratory of Materials Surface & Interface Science and Technology, College of Materials Science and Engineering, Central South University of Forestry and

陈相仲中文主页--科学研究

电子邮箱： xzchen@fudan .cn. Nano Energy 2023, 108, 108202. LINK Hu W. B.; Li, H. T., Evolution of nano-polar phases, interfaces and increased dielectric energy storage capacity in photoinitiated cross-linked Poly(vinylidene fluoride)-based copolymers. Colloid and Polymer Science 2013, 291 (8), 1989-1997.

Double-Holey-Heterostructure Frameworks Enable Fast, Stable,

Deliberate design of advantageous nanostructures holds great promise for developing high-performance electrode materials for electrochemical energy storage. However, it remains a tremendous challenge to simultaneously gain high gravimetric, areal, and volumetric capacities as well as high rate performance and cyclability to meet practical requirements

Advance on flexible pressure sensors based on metal and

He is currently co-Editor-in-Chief of Nano Advances (ISSN 2415–1386) and editorial member of Scientific Reports. He has strong backgrounds in high-throughput screening of energy conversion and storage materials, electrochemical energy devices, and their scale-up and commercialization.

Solar‐Driven Reversible Hydrogen Storage

The lack of safe and efficient hydrogen storage is a major bottleneck for large-scale application of hydrogen energy. Reversible hydrogen storage of light-weight metal hydrides with high theoretical gravimetric and volumetric hydrogen density is one ideal solution but requires extremely high operating temperature with large energy input.

徐宇曦博士

Zhonghui Chen, Xuhui An, Liming Dai*, Yuxi Xu*, "Holey Graphene-based Nanocomposites for Efficient Electrochemical Energy Storage", Nano Energy 2020, 73, 104762. 28. Minmin Fan, Dankui Liao, Mohamed F. Aly Aboud, Imran Shakir, Yuxi Xu*, "A Universal Strategy toward Ultrasmall Hollow Nanostructures with Remarkable Electrochemical

‪Jiayu Wan‬

‪SJTU, Stanford University, University of Maryland, HUST‬ - ‪‪Cited by 12,994‬‬ - ‪(Solid-state) Energy Storage‬ - ‪Nanotechnology‬ - ‪Composite Materials‬ - ‪Advanced Characterizations‬ - ‪Advanced Manufacturing‬

Realizing All‐Climate Li‐S Batteries by Using a Porous Sub‐Nano

Realizing All-Climate Li-S Batteries by Using a Porous Sub-Nano Aromatic Framework. Dr. Jie Xu, Institute of New Energy, iChEM (Collaborative Innovation Center of Chemistry for Energy Materials), Fudan University, Shanghai, 200433 China. School of Materials Science and Engineering, Anhui University of Technology, Maanshan, 243002 China

复旦大学智慧纳米机器人与纳米系统国际研究院简介

复旦大学智慧纳米机器人与纳米系统国际研究院是筹建中的复旦大学独立的二级实体科学研究机构。智慧纳米机器人与纳米系统国际研究院由中国科学院院士和德国科学与工程院院士领衔指导,立足复旦大学江湾校区和复旦大学义乌研究院,以双基地模式建设示范性国际化高水平研究院。

Journal of Energy Storage | Vol 36, April 2021

Read the latest articles of Journal of Energy Storage at ScienceDirect , Elsevier''s leading platform of peer-reviewed scholarly literature Fudan Liu, Jiahui Wang, WeiRui Ye, Xi Meng. Article 102416 select article Corrigendum to "Nano-sized flexible hollow carbon buffer layer improves capacitance of micro-nano NiS<sub>2</sub>/C

ZHOU Yongning

Nano Energy 71, 104614 (2020) Ming-Hui Cao, Zulipiya Shadike, Seong-Min Bak, Tian Wang, Enyuan Hu, Steven Ehrlich, Yong-Ning Zhou*, Xiao-Qing Yang*, Zheng-Wen Fu*. Sodium storage property and mechanism of NaCr1/4Fe1/4Ni1/4Ti1/4O2 cathode at

Publications

Nano Energy, 2021, 89. 106348 >> Fulltext Link. 761: Hierarchically Porous Silica Membrane as Separator for High-Performance Lithium-Ion Batteries Jing Wang, Yupu Liu, Qingfu Cai, Angang Dong, Dong Yang*, Dongyuan Zhao Energy Storage Mater, 2019, 19,

Covalent organic frameworks: From materials design to

An in-depth understanding of the charge storage mechanism and the structure-property relationships of the COF electrodes is subsequently provided, highlighting their designing strategies in the latest energy storage applications.

卢红斌

Thick electrode with thickness-independent capacity enabled by assembled two-dimensional porous nanosheets, Energy Storage Materials, 2021, 36, 265-27. Long Zhang#, Yicheng Liu#, Zedong Zhao, Peilu Jiang, Teng Zhang, Mengxiong Li, Shaoxue Pan, Tianyu Tang, Tianqi Wu, Peiying Liu, Yanglong Hou*, Hongbin Lu* .

文章

30) R. Zhang, C. Liu, Y. Cui, et al. "Morphology and property investigation of primary particulate matter particles from different sources" Nano Res. 11, 3182 (2018). 29) J. Zhao #, J. Sun #, A. Pei, and Y. Cui, " A general prelithiation approach for group IV elements and corresponding oxides", Energy Storage Materials 10, 275 (2018).

Recent advances in fiber-shaped and planar-shaped textile solar cells

He is currently Postdoctoral fellow at the Micro-Nano System, SIST, Fudan University, Shanghai and visiting Research fellow at Graphene & Advanced 2D Materials Research Group, Sunway University, Malaysia. especially electrochemical energy storage (Superacpacitors), conversion (solar cells), and electrochemical sensing applications.

Fudan nano energy storage [PDF]

Solar Pro.