博导、项目研究员,中国科大理学学士、博士,南京大学博士后、美国阿贡国家实验室APS访问学者。
读万卷书,行万里路!
我是一个对美好事物充满好奇心的人,不管是有趣的科学还是美好的山川;
过去10年,我们主要专注于同步辐射先进材料结构表征技术的发展,独特的技艺使得我课题组与国内外多个薄膜材料领域课题组形成良好合作关系,开展了系列重要研究工作并取得了一些成果,在Science,NatureMaterials,NatureCommunications等期刊发表论文100余篇。此外,最近四年,在合肥先进光源HALF的召唤下,我课题组也开始研究同时具有高空间分辨/高化学分辨能力的同步辐射相干衍射成像/谱学成像技术,这种技术是未来第四代同步辐射光源的杀手锏技术之一,会有很多重要而有趣的应用,
欢迎志同道合的朋友加入我们,一路同行!
课题组研究方向:
1.同步辐射及应用:衍射/成像/谱学显微
2.功能薄膜材料与器件
研究项目:
0)合肥先进光源工程
软X射线显微谱学相干成像线站(负责人);2021.7-
1)国家重点研发计划项目
2022YFA1603902(子课题负责人);2022.12-2027.11;
2)国家基金委面上项目
同步辐射三维衍射技术及其在复杂外延薄膜体系结构物性关系研究中的应用;2022.1-2025.12;64万;
3)国家重点研发计划项目
多重量子序关联和竞争下的多铁性磁电效应与多态超低功耗器件(子课题负责人);2016.6-2021.6;
4)国家基金委面上项目
表界面原子结构的同步辐射衍射表征技术及其应;2017.1-2020.12;72万;
5)国家基金委面上项目
钙钛矿氧化物的氧八面体旋转与物性关系的原位应变调控;2014.1-2017.12;76万;
.....
近期论文:
2023年:
1. Ferroelectricity in layered bismuth oxide down to 1 nanometer, 2023.03, Science, 379, 1218-1224;
2022年:
1. Revealing the three-component structure of water with principal......2022.10, Soft Matter, 18, 7486
2. In situ synchrotron X-ray diffraction reveals the disassembly-.......2022.07, Inorganic Chemistry Frontiers, 9, 3453
3. Self-Assembled Epitaxial Ferroelectric Oxide Nanospring with Super-..2022.04, Advanced Materials, 34, 2108419
4. Highly Flexible Freestanding BaTiO3-CoFe2O4 Heteroepitaxial Nanostr-.2022.01, Small, 18, 2104213;
5. Sunlight-induced tri-state spin memory in photovoltaic/ferromagnetic.2022.10, Nano Today, 46, 101605;
6. Robust room-temperature ferroelectricity and magnetoelectric.........2022.12, J. American Ceramic Society, 105, 7558;
7. Hexagonal Lu1-xInxFeO3 Room-Temperature Multiferroic Thin Films......2022.11, ACS AMI, 14, 52117;
8. Robust ferromagnetic insulating and large exchange bias in LaMnO3....2022.05, J. Physics D., 55,195003;
9. Electric-Field Control of Magnetoresistance Behavior in a Conetic....2022.07, Frontiers in Materials, 9, 956349;
2021年:
1. Strain-Driven Dzyaloshinskii-Moriya Interaction for Room-Temperature.2021.10, Phys.Rev.Lett. 127, 117204
2. Engineering polar vortex from topologically trivial domain ......... 2021.07, Nature Communication 12,4620
3. Ultraflexible and Malleable Fe/BaTiO3 Multiferroic Heterostructures..2021.01, Adv.Funct.Mater.DOI:10.1002/adfm.202009376;
4. Electric Polarization Switching on an Atomically Thin Metallic Oxide,2021.03, Nano Letters, 21, 144;
5. Reversible Rapid Hydrogen Doping of WO3 in Non-Acid Solution, 2021.03, ACS Appl.Mter.Interfaces, 13, 13419;
6. Strain engineering of epitaxial oxide heterostructures beyond..... 2021.04, Matter, 4, 1-12;
7. Magnetic structure and multiferroicity of Sc-substituted hexagonal.. 2021.05, Physical Review B, 103, 174102;
2020年:
1. Moire engineering of electronic phenomena in correlated oxides, 2020.06, NATURE PHYSICS, 16(6),631;
2. Phase transition enhanced superior elasticity in freestanding.. 2020.08, SCIENCE ADVANCES, 6(34),eaba5847;
3. Periodic Wrinkle-Patterned Single-Crystalline Ferroelectric ... 2020.12, Advanced Materials, 32(50),2004477;
4. Highly Flexible and Twistable Freestanding Single Crystalline.., 2020.08, Advanced Functional Materials,30,2003495;
5. Exchange-biased nanocomposite ferromagnetic insulator.........., 2020.01, Physical Review B, 101, 014422;
6. Electric field controllable high-spin SrRuO3 driven by a ...... 2020.06, Physical Review B, 101, 214401;
2019年:
1. Super-elastic ferroelectric single-crystal membrane with continuous...2019.10 SCIENCE, 366, 475;
2. Vapour-phase-transport rearrangement technique for the synthesis of...2019.11 NATURE COMMUNICATIONS, 10, 5129;
3. Interfacial Octahedral Manipulation Imparts Hysteresis-Free Metal... 2019.09 ADVANCED MATERIALS INTERFACES, 1900644;
4. Mixture domain states in PbTiO3 film with potentials for functional...2019.06 APPLIED PHYSICS LETTERS 114,242901;
5. Shear strain-induced anisotropic domain evolution in mixed-phase... 2019 AIP ADVANCES 9,025114;
6. Low temperature Pmmm and C2/m phases in Sr2CuO3+δ high... 2019.04 Chinese Physics B 28,056103;
7. Van der Waals Epitaxy of Anatase TiO2 on mica and Its Application... 2019.07 CPL 36,078101;
8. Lattice Disorder-Engineered Energy Splitting between Bright... 2019.03 J.Phy.Chem.Lett. 10, 1355;
9. Nanosecond Optically Induced Phase Transformation in... 2019.07 Phys.Rev.Lett. 123, 045703;
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