吴凡

简介


男,1989年12月生。

2019-至今   团常州市委副书记;
                  中科院物理所博导;国科大教授

                 长三角物理研究中心:科学家工作室主任;

                  天目湖先进储能技术研究院:首席科学家
2007-2011  浙江大学,材料科学与工程,学士。
2011-2014  美国北卡州立大学,材料科学与工程,硕士+博士。
2014-2016  普林斯顿大学,博士后。
2016-2018  哈佛大学,博士后+Research Scientist。

主要研究方向


1)高能量密度锂(离子)电池材料、电芯研发;(2)硫化物全固态/固态锂(离子)电池材料、电芯研发;(3)正负极材料与固态电解质界面处理;(4)锂电池失效分析;(5)先进材料表征与分析。

 

过去的主要工作及获得的成果


奖项及荣誉:

国家级高层次人才计划(2019);

中科院杰出人才计划(2019)及择优支持(2021);

全国青年岗位能手-共青团中央(2022);

第一届全国先进储能技术创新挑战赛二等奖-国家工信部(2022);

全国未来储能技术挑战赛一等奖(2021);

中国科学院物理研究所"科技新人奖"(2021);

江苏省杰出青年基金(2022);

江苏青年五四奖章(2022);

江苏青年U35攀峰奖(2022);

江苏青年双创英才(2021);

常州市五一劳动奖章(2022);

常州市十大杰出青年(2022);

常州市突出贡献人才(2021);

常州市十大科技新锐(2021);

常州市领军型创新人才(2021);

最美常州人(2021);

常州好青年(2021);

常州市五大明星城建设先进个人(2021);

年度新能源领域最受关注研究工作(2021);

溧阳市优秀共产党员(2021);

天目湖英才榜C类人才(2020);

首届天目湖英才榜探索英才(2022);

溧阳市十大青春追梦人(2019);

华为优秀创新人才奖(2021);

华为创新探索团队奖(2021);

 

社会及学术任职

中国共青团常州市委副书记(2023-);

中国能源学会副主任委员(2022);

中国共产党江苏省党代会党代表(2021);

江苏省科协理事(2021);

常州市青联常委(2021,第12届);

中国共产党溧阳市党代会主席团成员、党代表(2021);

IEEE储能材料专家委员会常务理事(Standing Director);

中国科学技术大学校外合作导师;

电子科技大学校外合作导师;

第七届全国储能科学与技术大会分论坛(青年储能科学家论坛)主席;

第八届中英国际颗粒学论坛分论坛主席;

第一届材料化学及前沿学科国际论坛分论坛(电化学储能材料与器件)主席;

第五届可再生能源与发展国际研讨会(IWRED 2021)组委会委员;

 

 

代表性论文及专利


2023

 

Hard-Carbon-Stabilized Li-Si Anodes for high-performance All-Solid-State Li-ion Batteries

W. Yan, Z Mu, Z. Wang, Y. Huang, D. Wu, P. Lu, J. Lu, J. Xu, Y. Wu, T. Ma, M. Yang, X. Zhu, Y. Xia, S. Shi, L. Chen, H. Li, F. Wu*

Nature Energy (IF=67.439) 2023, in press.

https://www.nature.com/articles/s41560-023-01279-8

 

High-Areal-Capacity and Long-Cycle-Life All-Solid-State Battery Enabled By Freeze Drying Technology

T. Ma, Z. Wang, D. Wu, P. Lu, X. Zhu, M. Yang, J. Peng, L. Chen, H. Li, F. Wu*

Energy & Environmental Science (IF=40) 2023, 16, 2142 - 2152.

https://DOI: 10.1039/d3ee00420a

 

High-Capacity, Long-Life Iron Fluoride All-Solid-State Lithium Battery with Sulfide Solid Electrolyte

J. Peng ,X. Wang, L. Chen, H. Li, F. Wu*

Advanced Energy Materials(IF=29.698)2023,2300706.

https://onlinelibrary.wiley.com/doi/10.1002/aenm.202300706

 

High-Safety, Wide-Temperature-Range, Low-External-Pressure and Dendrite-Free Lithium Battery with Sulfide Solid Electrolyte.

J. Peng, D. Wu, P. Lu, Z. Wang, Y. Du, Y. Wu, Y. Wu, W. Yan, J. Wang, H. Li, L. Chen & F. Wu* 

Energy Storage Materials (IF=20.831) 2023, 54: 430-439.

https://doi.org/10.1016/j.ensm.2022.10.057

 

Tuning discharge voltage by Schottky electron barrier in P2-Na2/3Mg0.205Ni0.1Fe0.05Mn0.645O2    

Y. Wang, Z. Shadike, W. Fitzhugh, F. Wu, S. Lee, J. Lee, X. Chen, Y. Long, E. Hu, X. Li*

Energy Storage Materials (IF=20.831), 2023, 55, 587-596

 

Stable Interface Between Sulfide Solid Electrolyte and-Room-Temperature Liquid Lithium Anode

J. Peng, D. Wu, Z. Jiang, P. Lu, Z. Wang, T. Ma, M. Yang, H. Li, L. Chen, F. Wu*

ACS Nano(IF=18.9)2023, in press

 

Anode Interfacial Issues in Solid-State Li Batteries: Mechanistic Understanding and Mitigating Strategies

J. Wang, L. Chen, H. Li, F. Wu*

Energy & Environmental Materials (IF=15.122)2023, 0, e12613

https://doi.org/10.1002/eem2.12613

 

Fast Charge Storage Kinetics by Surface Engineering for Ni-Rich Layered Oxide Cathode

J. Wang, Z. Zhang, W. He, Z. Wang, S. Weng, Q. Li, X. Wang, S. Barg, L. Chen, H. Li, F. Wu*

Journal of Materials Chemistry A (IF=14.511), 2023, 11, 10239 - 10253(2023 JMCA Hot papers)

https://doi.org/10.1039/D3TA00890H  

 

High-Capacity Sulfide All-Solid-State Lithium battery with Conversion-type Iron Fluoride Cathode

X. Wang, Z. Wang, L. Chen, H. Li, F. Wu*

Journal of Materials Chemistry A (IF=14.511), 2023, in press.

http://doi: 10.1039/D2TA09109G

 

Toward Better Batteries: Solid-State Battery Roadmap 2035+

D. Wu, F. Wu*

eTransportation (IF=13.661), 2023, 16, 10024.

https://www.sciencedirect.com/science/article/abs/pii/S2590116822000698

 

Long-life High-capacity Lithium Battery with Liquid Organic Cathode and Sulfide Solid Electrolyte

J. Peng, D. Wu, H. Li, L. Chen & F. Wu* 

Battery Energy, 2023, 20220059.

doi:10.1002/bte2.20220059

 

Application of liquid metal electrodes in electrochemical energy storage

J. Peng, H. Li, L. Chen & F. Wu* 

Precision Chemistry, 2023, in press.

 

 

2022

 

Solid state ionics - selected topics and new directions 

F. Wu, L. Liu, S. Wang, J. Xu, P. Lu, W. Yan, J. Peng, D. Wu, H. Li*

Progress in Materials Science (IF=48.165), 2022, 126,100921.

https://doi.org/10.1016/j.pmatsci.2022.100921

 

Progress in Solvent-Free Dry-Film Technology for Batteries and Supercapacitors

Y. Li, Y. Wu, Z. Wang, J. Xu, T. Ma, L. Chen, H. Li*, F. Wu*

Materials Today (IF=31.041), 2022, 55,92-109.

https://doi.org/10.1016/j.mattod.2022.04.008

 

Long-Life Lithium-Metal All-Solid-State Batteries and Stable Li Plating Enabled by In-situ Formation of Li3PS4  in SEI Layer

J. Xu, J. Li, Y. Li, M. Yang, L. Chen, H. Li, F. Wu*

Advanced Materials(IF=32.086), 2022, 2203281.

https://DOI:10.1002/adma.202203281

 

Long-life Sulfide All-solid-state Battery Enabled by Substrate-Modulated Dry-Process Binder

Y. Li, Y. Wu, T. Ma, Z. Wang, Q. Gao, J. Xu,  L. Chen, H. Li, F. Wu*

Advanced Energy Materials(IF=29.698), 2022, 01732.

DOI: 10.1002/aenm.202201732

 

Air Stability of Sulfide Solid-state Batteries and Electrolytes

P. Lu#, D. Wu#, L. Chen, H. Li*, F. Wu*

Electrochemical Energy Reviews (IF=32.804), 2022, 5:3.

https://doi.org/10.1007/s41918-022-00149-3

 

Improving Thermal Stability of Sulfide Solid Electrolytes: An Intrinsic Theoretical Paradigm

S. Wang, Y. Wu, H. Li, L. Chen, F. Wu*

Infomat(IF=25.405)2022, 212316.

Improving thermal stability of sulfide solid electrolytes: An intrinsic theoretical paradigm - Wang - - InfoMat - Wiley Online Library

 

Wide-temperature, Long-cycling, and High-loading Pyrite All-solid-state Batteries Enabled by Argyrodite Thioarsenate Superionic Conductor

P. Lu,  Y. Xia, G. Sun, S. Shi, Z. Sha, L. Chen, H. Li, F. Wu*

Advanced Functional Materials(IF=19.924), 2022, 2211211. 

https://doi.org/10.1002/adfm.202211211

 

Thermal Stability between Sulfide Solid Electrolytes and Oxide Cathode

S. Wang, Y. Wu, T. Ma, L. Chen,  H. Li, F. Wu*

ACS Nano(IF=18.9)2022, 16, 10, 16158–16176.

 

Interfacial and Cycle Stability of Sulfide All-Solid-State Batteries with Ni-Rich Layered Oxide Cathodes

J. Wang, Z. Zhang, J. Han, X. Wang, L. Chen, H. Li, F. Wu*

Nano Energy (IF=19.069), 2022, 107528.

Interfacial and Cycle Stability of Sulfide All-Solid-State Batteries with Ni-Rich Layered Oxide Cathodes - ScienceDirect

 

Doping Strategy and Mechanism for Oxide and Sulfide Solid Electrolytes with High Ionic Conductivity

Y. Wang, Y. Wu, Z. Wang, L. Chen, H. Li*, F. Wu*

Journal of Materials Chemistry A (IF=14.511), 2022, 10, 4517 - 4532

https://doi.org/10.1039/D1TA10966A  

 

Air/water Stability Problems and Solutions for Lithium Batteries

M. Yang, L. Chen, H. Li*, F. Wu*

Energy Materials Advances2022, 9842651.

https://spj.sciencemag.org/journals/energymatadv/2022/9842651/

 

Recent Progress of Solid-Sstate Lithium Batteries in China. 

D. Wu, L. Chen, H. Li, F. Wu*. 

Applied Physics Letters, 2022,121, 120502.

https://doi.org/10.1063/5.0117248

 

Stable Ni-rich layered oxide cathode for sulfide all-solid-state lithium battery

Y. Wang, Z. Wang, D. Wu, Q. Niu, P. Lu, T. Ma, Y. Su, L. Chen, H. Li, F. Wu*

eScience2022, 2,5,537-545.

Stable Ni-rich layered oxide cathode for sulfide all-solid-state lithium battery - ScienceDirect

 

Progress in Lithium Thioborate Superionic Conductors

X. Zhu, Z. Zhang, L. Chen, H. Li. F. Wu*

Journal of Materials Research (invited paper), 2022, accepted.

https://doi.org/10.1557/s43578-022-00592-4

 

Liquid-phase Synthesis of Li2S and Li3PS4 with Lithium-based Organic Solutions

J. Xu, Q. Wang, W. Yan, L. Chen, H. Li. F. Wu*

Chinese Physics B2022, 31,098203.

Liquid-phase Synthesis of Li2S and Li3PS4 with Lithium-based Organic Solutions - IOPscience

 

2021

 

Superior all-solid-state batteries enabled by gas-phase synthesized sulfide electrolyte with ultra-high moisture stability and ionic conductivity. 

P. Lu, L. Liu, S. Wang, J. Xu, J. Peng, W. Yan, Q. Wang, H. Li, L. Chen, F. Wu*. 

Advanced Materials(IF=32.086), 2021, 2100921.

https://doi.org/10.1002/adma.202100921

 

Water-Stable Sulfide Solid Electrolyte Membranes Directly Applicable in All-Solid-State Batteries Enabled by Superhydrophobic Li+-conducting Protection Layer

J. Xu, Y. Li, P. Lu, W. Yan, H. Li, L. Chen, F. Wu*. 

Advanced Energy Materials(IF=29.698), 2021, 2102348.

Water‐Stable Sulfide Solid Electrolyte Membranes Directly Applicable in All‐Solid‐State Batteries Enabled by Superhydrophobic Li+‐Conducting Protection Layer - Xu - - Advanced Energy Materials - Wiley Online Library

 

High Current Density and Long Cycle Life Enabled by Sulfide Solid Electrolyte and Dendrite-Free Liquid Lithium Anode

J. Peng, D. Wu, F. Song, S. Wang, Q. Niu, J. Xu, P. Lu, H. Li, L. Chen, F. Wu*. 

Advanced Functional Materials(IF=19.924), 2021, 2105776.

High Current Density and Long Cycle Life Enabled by Sulfide Solid Electrolyte and Dendrite‐Free Liquid Lithium Anode

 

5V-Class Sulfurized Spinel Cathode Stable in Sulfide All-Solid-State Batteries

Y. Wang, Y. Lv, Y. Su, L. Chen, H. Li, F. Wu*. 

Nano Energy (IF=19.069), 2021, 90,106589.

https://doi.org/10.1016/j.nanoen.2021.106589

 

Progress in Thermal Stability of All-Solid-State-Li-Ion-Batteries

Y. Wu#, S. Wang#, H. Li, L. Chen, F. Wu*.

Infomat(IF=25.405), 2021, 1-27 (Cover Image)

https://doi.org/10.1002/inf2.12224

 

Application of Si-based Anodes In Sulfide Solid-State Batteries. 

W. Yan, F. Wu*, H. Li, L. Chen.

Energy Storage Science and Technology, 2021, 10(3): 821-835.

Application of Si-based anodes in sulfide solid-state batteries (energystorage-journal.com)

 

Before 2021

 

Advanced sulfide solid electrolyte by core-shell structural design

F. Wu #, W. Fitzhugh #, L. Ye, J. Ning, X. Li *

Nature Communications, (2018) 9:4037.

Advanced sulfide solid electrolyte by core-shell structural design | Nature Communications

 

A high‐throughput search for functionally stable interfaces in sulfide solid‐state lithium ion conductors

W. Fitzhugh #, F. Wu #, L. Ye, W. Deng, P. Qi, X. Li *

Advanced Energy Materials, 1900807.

A High‐Throughput Search for Functionally Stable Interfaces in Sulfide Solid‐State Lithium Ion Conductors - Fitzhugh - 2019 - Advanced Energy Materials - Wiley Online Library

 

Strain‐stabilized ceramic‐sulfide electrolytes.

W. Fitzhugh #, F. Wu #, L. Ye #, H. Su, X. Li *

Small, 1901470.

Strain‐Stabilized Ceramic‐Sulfide Electrolytes - Fitzhugh - 2019 - Small - Wiley Online Library

 

Practical evaluation of energy densities for sulfide solid-state batteries

L. Liu #, J. Xu #, S. Wang, F. Wu *, H. Li *, L. Chen

eTransportation, 2019, 1: 100010.

Practical evaluation of energy densities for sulfide solid-state batteries - ScienceDirect

 

Liquid-involved synthesis and processing of sulfide-based solid electrolytes, electrodes and all-solid-state batteries

J. Xu, L. Liu, N. Yao, F. Wu *, H. Li *, L. Chen

Materials Today Nano, 2019: 100048. 

Liquid-involved synthesis and processing of sulfide-based solid electrolytes, electrodes, and all-solid-state batteries - ScienceDirect

 

Advances in Electrochemical Stability of Sulfide Solid-state Electrolyte

Liu, Lilu, Fan Wu, Hong Li, and Liquan Chen.

Journal of the Chinese Ceramic Society  2019, 47: 1367–1385. 

 

In-situ synthesis and defect evolution of single-crystal piezoelectric nanoparticles

F. Wu *, N. Yao *

Nano Energy 28 (2016) 195–205.

 

Advances in windowed gas cells for in-situ TEM studies

F.Wu *, N. Yao *

Nano Energy, 2015, 13, 735-756. 

 

Advances in sealed liquid cells for in-situ TEM electrochemial investigation of lithium-ion battery

F. Wu *, N. Yao 

Nano Energy, 2015, 11, 196-210.

 

Tuning exchange bias in epitaxial Ni/MgO/TiN heterostructures integrated on Si(100). 

F.Wu *, SS Rao, JT Prater, J. Narayan 

Current Opinion in Solid State and Materials Science, 2014, 18 (5), 279-285.

 

Macroscopic twinning strain in nanocrystalline Cu. 

F. Wu, Y.T. Zhu *, J. Narayan *

Materials Research letters, 2013, 2 (2), 63-69.

 

Nanoscale electrical properties of epitaxial Cu3Ge film

F. Wu *, W.Cai, N. Yao 

Scientific Reports, 2016, 6, 28818. 

 

Energy scavenging based on a single-crystal PMN-PT nanobelt 

F. Wu *, W. Cai, Y. Yeh, S. Xu, N. Yao *

Scientific Reports, 2016, 6, 22513. 

 

Controlled epitaxial growth of bcc and fcc Cu on MgO for integration on Si 

F. Wu *, J. Narayan

Crystal Growth & Design, 2013, 13 (11), 5018–5024.

PMN-PT nanostructures for energy scavenging 

 F. Wu *, N. Yao *

Semiconductor Science and Technology, 2017. 32 (6), 063001.

Work function of Cu3Ge thin film

F. Wu *, N. Yao *

Microscopy and Microanalysis 2016, 22 (S3), 1654-1655.

Fabrication of epitaxial Cu3Ge on sapphire with controlled crystallinity and planar defects

F. Wu *, J.K. Zheng, W. Cai, N. Yao *, Y.T. Zhu, J. Narayan

Journal of Alloys and Compounds, 2015, 641, 238-243.

Twin intersection mechanisms in nanocrystalline fcc metals

F. Wu, H.M. Wen, E.J. Lavernia, J. Narayan *, Y.T. Zhu

Materials Science and Engineering: A, 2013, 585 (0), 292-296.

Grain size effect on twin density in as-deposited nanocrystalline Cu film

F. Wu *, Y.T. Zhu, J. Narayan

Philosophical Magazine, 2013, 93 (35), 4355-4363.

Nanoelectronics and Materials Development, ISBN 978-953-51-4734-3, Book edited by Dr. Abhijit Kar

F. Wu *, N. Yao 

publisher: INTECH. 

Microscopy and Analysis, ISBN 978-953-51-4723-7, Book edited by: Stefan Stanciu

F. Wu *, N. Yao *

publisher: INTECH. 

Reversible flat to rippling phase transition in fe containing layered battery electrode materials

X. Chen, S. Hwang, R. Chisnell, Y. Wang, F. Wu, S. Kim, J. W. Lynn, D. Su, and  X. Li *

Advanced Functional Materials, 2018, 1803896

 

Defects in thin-film heterostructured materials (invited review)

F. Wu

Nanoscience & Nanotechnology-Asia, 2018, Accepted.

A combination of theory and experiment achieving rational design of electrocatalysts for water reduction on hierarchically porous CoS2 microsphere. 

A. Wang, M. Zhang, H. Li, F. Wu, K. Yan and J. Xiao *

Under review.

A novel dual phase membrane 40 wt% Nd0.6Sr0.4CoO3−δ 60 wt%Ce0.9Nd0.1O2−δ: design, synthesis and properties

H. Yuan, S. Lei, F. Wu, S. Wang, D. Yan, P. Liu, Man-Rong Li, J. Caro *and H. Luo  *

Journal of Materials Chemistry A, 2017, 6 (1), 84-92.

In situ preparation of metal halide perovskite nanocrystal thin films for improved light-emitting devices

L. Zhao, Y.W. Yeh, N. L. Tran, F. Wu, Z. Xiao, R.A. Kerner, Y.H. L. Lin, G.D. Scholes, N. Yao, B.P. Rand *

ACS Nano, 2017.11(4), 3957.

Photoluminescence of functionalized germanium nanocrystals embedded in arsenic sulfide glass

Gu, J. Gao, E. Ostroumov, H. Jeong, F. Wu, R. Fardel, N. Yao, R.D. Priestley, G.D. Scholes, Yueh-Lin Loo and C.B. Arnold *

ACS Appl. Mater. Interfaces, 20170509, online

Anisotropic crystallization in solution processed chalcogenide thin film by linearly polarized laser

T. Gu, H. Jeong, K. Yang, F. Wu.

Applied Physics Letters, 2017, 110 (4), 041904

Atomic scale visualization of quantum interference on a weyl semimetal surface by scanning tunneling microscopy

Zheng, S.-Y. Xu, G. Bian, C. Guo, G. Chang, D. S. Sanchez, I. Belopolski, C.-C. Lee, S.-M. Huang, X. Zhang, R. Sankar, N. Alidoust, T.-R. Chang, F. Wu, T. Neupert, F. Chou, H. -T. Jeng, N. Yao, A. Bansil, S. Jia, H. Lin, M. Z. Hasan*.

ACS Nano, 2016, 10 (1), 1378.

Ferromagnetic oxide heterostructures on silicon 

S.S. Rao*, J. T. Prater, F. Wuand, J. Narayan

MRS Communications, 2016, 6, 234–240

Strain induced room temperature ferromagnetism in epitaxial magnesium oxide thin films

Jin, S. Nori, Y.F. Lee, D. Kumar, F. Wu, J. T. Prater, K.W. Kim, and J. Narayan *

Journal of Applied Physics, 2015, 118, (16), 165309.

The (0001) surfaces of α-Fe2O3 nanocrystals are preferentially activated for water oxidation by Ni doping

Zhao, F. Wu, C. X. Kronawitter, Z. Chen, N. Yao and B. E. Koel *

Physical Chemistry Chemical Physics, 2015, 17, (40), 26797-26803.

Complete vertical M-H loop shift in La0.7Sr0.3MnO3/SrRuO3 thin film heterostructures

S. S. Rao *, F. Wu, J. T. Prater1 and  J. Narayan 

Journal of Applied Physics, 2015, 117, 17B711.

Dependence of semiconductor to metal transition of VO2(011) /NiO{100} /MgO{100} /TiN{100} /Si{100} heterostructures on thin film epitaxy and nature of strain

M. R. Bayati *, R. Molaei, F. Wu, J. Narayan, S. Yarmolenko

Journal of the American Ceramic Society, 2015, 98, (4), 1201-1208.

Positive exchange bias in epitaxial permalloy/MgO integrated with Si (100) 

S. S. Rao *, J.T. Prater, F. Wu, S. Nori, D. Kumar, L. Yue, S.-H. Liou, J. Narayan 

Current Opinion in Solid State and Materials Science, 2014, 18 (3), 140.

Magnetic properties of BaTiO3/La0.7Sr0.3MnO3 thin films integrated on Si (100)

S.S. Rao *, F. Wu, JT Prater, J. Narayan

Journal of Applied Physics, 2014, 116 (22), 224104.

Modification of properties of yttria stabilized zirconia epitaxial thin films by excimer laser annealing

M.R. Bayati *, R. Molaei, A. Richmond, S. Nori, F. Wu, D. Kumar, J. Narayan*, J. G. Reynolds, C.L. Reynolds, Jr.

ACS Applied Materials & Interfaces, 2014, 6 (24), 22316-22325.

Dependence of Semiconductor to Metal Transition of VO2(011) /NiO{100} /MgO{100} /TiN{100} /Si{100} Heterostructures on Thin Film Epitaxy and Nature of Strain 

M.R. Bayati *, R. Molaei, F. Wu, J.Narayan, S.Yarmolenko

Journal of the American Ceramic Society, 2015, 98, (4), 1201-1208. 

A microstructural approach toward the effect of thickness on semiconductor-to-metal transition characteristics of VO2 epilayers

R. Molaei *, M. R. Bayati, F. Wu, J. Narayan

Journal of Applied Physics, 2014, 115, 164311.

Effect of substrate temperature on the microstructural properties of titanium nitride nanowires grown by pulsed laser deposition

S. Gbordzoe *, R. Kotoka, E. Craven, D. Kumar, F. Wu, J. Narayan

Journal of Applied Physics, 2014, 116, 064310.

Oxygen vacancy enhanced room temperature ferromagnetism in Sr3SnO/c-YSZ/Si (001) heterostructures

Y. Lee *, F. Wu, J. Narayan, J. Schwartz

MRS Communications, 2014, 4 (01), 7-13.

Evidence for topological surface states in epitaxial Bi2Se3 thin film grown by pulsed laser deposition through magneto-transport measurements

Y. Lee *, S. Punugupati, F. Wu, Z. Jin, J. Narayan, J. Schwartz

Current Opinion in Solid State and Materials Science, 2014, 18, (5), 279-285.

Interface magnetism in epitaxial BiFeO3-La0.7Sr0.3MnO3 heterostructures integrated on Si (100)

S.S. Rao *, J.T. Prater, F. Wu, C. T. Shelton, J.-P. Maria and J. Narayan

Nano Letters, 2013, 13 (12), 5814-5821.

Integration of epitaxial permalloy on Si (100) through domain matching epitaxy paradigm

S.S. Rao *, J.T. Prater, F. Wu, S. Nori, D. Kumar, J. Narayan

Current Opinion in Solid State and Materials Science, 2013, 18 (1), 1–5.

Epitaxial integration of topological insulator SrSnO with c-YSZ/Si(001)

Y. F. Lee *, F. Wu, R. Kumar, F. Hunte, J. Schwartz and J. Narayan

Applied Physics Letters, 2013, 103(11), 112101.

Correlation between structure and semiconductor to metal transition characteristics of VO2/TiO2/sapphire thin film heterostructures

M.R. Bayati *,R. Molaei, F. Wu, J.D. Budai, Y. Liu, R.J. Narayan, J. Narayan

Acta Materialia, 2013, 61(20), 7805-7815.

Deposition and characterization of nanostructured Cu2O thin-film for potential photovoltaic applications

Gupta, R. Singh *, F. Wu , J. Narayan , C. McMillen , G.F. Alapatt , K.F. Poole, S.-J. Hwu , D. Sulejmanovic , M. Young , G. Teeter and H. S. Ullal

Journal of Materials Research, 2013, 28 (13), 1740-1746.

Enhanced dehydrogenation/hydrogenation kinetics of the Mg(NH2)2–2LiH system with NaOH additive

C. Liang, Y. Liu*, Z. Wei, Y. Jiang, F. Wu, M. Gao, H. Pan

International Journal of Hydrogen Energy, 2011, 36 (3), 2137-2144.

Phase-structure and hydrogen storage behaviors of Mg+10% Ni2P composite prepared by reactive ball-milling

Peng, X. Xiao, Z. Hang, F. Wu, C. Li, S. Li, L. Chen  *

Rare Metal Materials and Engineering, 2011, 40 (8), 1387-1391.

Ultrafine SnO2 dispersed carbon matrix composites derived by a sol–gel method as anode materials for lithium ion batteries

M. Gao, X. Chen, H. Pan *, L. Xiang, F. Wu, Y. Liu

Electrochimica Acta, 2010, 55, 9067.

目前的研究课题及展望


 

项目负责人,首席科学家:
 

国家海外高层次人才引进计划研究项目1项

中科院“海外杰出人才引进计划”研究项目及择优支持1项

国家自然科学基金面上项目 1项

江苏省杰出青年基金项目1项

江苏省重点研发计划重点项目 1项

北京市自然科学基金面上项目 1项

天目湖先进储能技术研究院科学家工作室研究项目 1项

华为前瞻性战略研发项目 2项

中国长江三峡集团前瞻性战略研发项目 1项

课题负责人:

国家自然科学基金重点研发项目1项
 

培养研究生情况


 

计划每年招收硕博连读生/博士生3名,博士后2-3名,欢迎材料、物理、化学、电化学等相关专业背景的考生/候选人报考/申请。

其他联系方式


https://www.x-mol.com/groups/wu_fan/people/8037

电话


010-62553698

Email


fwu@iphy.ac.cn

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