高校/研究所邀请报告 Invited talks in universities/institutes

024. "镍基氧化物的常压单晶制备与高压下的高温超导"，中国人民大学物理学院，北京，2026年3月4日

023. "常压生长96K镍基高温超导体单晶"，中国科学院物理研究所，北京，2025年12月12日

022. "Ambient pressure growth of nickelate single crystals with superconductivity up to 96 K under high pressure"，上海交通大学李政道研究所，上海，2025年12月9日

021. "Ambient pressure growth of nickelate single crystals with superconductivity up to 96 K under high pressure"，北京高压科学研究中心，上海，2025年12月8日

020. "镍基高温超导体单晶生长新方法和镍基“YBCO”的发现"，南京大学物理系，中国，南京，2025年9月30日

019. "镍基高温超导体单晶生长新方法和镍基“YBCO”的发现"，东南大学物理系，中国，南京，2025年9月29日

018. "镍基高温超导体单晶生长新方法和镍基“YBCO”的发现"，清华大学物理系，中国，北京，2025年6月5日

017. “镍基高温超导体单晶生长新方法和高压下Tc新记录”，中国人民大学物理学院，中国北京，2025年3月13日，腾讯会议

016. “常压镍基超导探索”，北京师范大学物理学院，中国北京，2024年12月3日

015. “常压镍基超导探索”，曲阜师范大学物理工程学院，中国曲阜，2024年6月24日

014. “稀土镍氧化合物的电荷/自旋序与轨道极化”，上海科技大学，中国上海，2023年11月22日

013. “稀土镍氧化合物的电荷/自旋序与轨道极化”，浙江大学关联物质研究中心，浙江杭州，2023年11月20日

012. “关联量子材料的设计、单晶生长与调控”，济南大学材料科学与工程学院，中国济南. 2023年10月24日

011. “稀土镍氧化合物的电荷/自旋序与轨道极化”，吉林大学物理学院，吉林长春. 2023年10月16日

010. “低价层状镍氧化合物的单晶生长、微结构与物理性能”，清华大学物理系，北京，2021年1月11日

009. “Combining neutron and x-ray scattering for understanding emergent properties in complex oxides”, Neutron Scattering Division, Oak Ridge National Laboratory, Oak Ridge, Tennessee, USA, May. 2019

008. “Searching for superconductivity in square planar nickelates”, Department of Chemistry, University of Nebraska-Lincoln, Lincoln, Nebraska, USA, Feb. 2019

007. “High pressure floating zone crystal growth of strongly correlated materials”, Department of Physics & Astronomy, Stewart Blusson Quantum Matter Institute, University of British Columbia, Vancouver, BC, Canada, Jul. 2018 

006. “Square-planar trilayer nickelates: a cuprate analogue for high-T_c superconductivity?” Department of Physics & Astronomy, University of British Columbia, Vancouver, BC, Canada, Mar. 2018 

005. “Square-planar trilayer nickelates: a cuprate analogue?”, Institute of Crystal Materials, Shandong University, Jinan, Shandong, China, Sep. 2017

004. “Square-Planar Trilayer Nickelates: A Cuprate Analogue?”, Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, Nov. 2016 

003. “Square-Planar Trilayer Nickelates: A Cuprate Analogue?”, Condensed Matter Physics & Materials Science Department, Brookhaven National Laboratory, Upton, NY, Oct. 2016

002. “Charge Order in Trilayer Nickelates”, Department of Physics, University of Illinois at Urbana-Champaign, Urbana, IL, USA, May 2016 

001. “Synthesis, crystal growth, characterization and structure-property relationships of alkali/alkaline-earth metal molybdenum tellurites”, “Hai You” seminar, School of Materials Science and Engineering, Jinan, Shandong, China, Dec. 2012

 

 

国际国内学术会议邀请报告 Invited talk in conferences

020. “Bulk superconductivity up to 96 K in pressurized nickelate single crystals grown at 1 atm”, The 4^th International Workshop on high-T_c Nickelate Superconductors, APCTP, Pohang, Korea, May 10-13, 2026

019. "镍氧化物单晶常压生长与高压下高温超导"，2026高温超导前沿研讨会，中国，合肥，2026年4月17-19日

018. “Bulk superconductivity up to 96 K in pressurized nickelate single crystals”, Second International Workshop on Novel Superconductors, Southern University of Science and Technology, Shenzhen, China, Apr. 13-16, 2026

017. "镍基超导体常压单晶制备及高压下90K以上超导"，第二十届全国低温物理会议，超导电性/强关联电子体系/量子相变分会，中国，西安，2026年4月9-13日

016. “Pressure-induced superconductivity up to 96 K in nickelate single crystals grown at 1 atm”, Frontiers of Unconventional Superconductivity Virtual Workshop, Rice University, United States, Feb. 2-4, 2026

015. “Superconductivity up to 96 K in pressurized nickelate single crystals”, The 3rd International Workshop on high-T_c Nickelate Superconductors, Fudan University, Shanghai, China, Dec. 5-7, 2025

014.“常压生长96K镍基高温超导体单晶”，第五届人工晶体材料青年学术会议，电/声/磁及其他功能晶体分会，中国，福州，2025年11月7-9日

013.“镍基高温超导体单晶生长新方法和镍基“YBCO”的发现”，中国物理学会2025秋季学术会议，强关联与超导物理分会，中国，哈尔滨，2025年9月11-14日

012. “Ambient pressure growth of bilayer nickelate single crystals with superconductivity over 90 K under high pressure”, The 4th Conference on Physics under Synergetic Extreme Conditions held jointly with the Summer School of SECUF (SECUF-2025), Huairou, Beijing, China, July 17-20, 2025

011. “Ambient pressure growth of bilayer nickelate single crystals with superconductivity over 90 K under high pressure”, 第十八届全国超导学术研讨会, 上海, 中国, Jun. 6-10, 2025

010. “Ambient pressure growth of bilayer nickelate single crystals with superconductivity over 90 K under high pressure”, The 12th Quantum Oxide Research Online Meeting (QUOROM12), Virtual, May 22, 2025

009. “Ambient pressure growth of bilayer nickelate single crystals with superconductivity over 90 K under high pressure”, The 10th International Conference on Superconductivity and Magnetism (ICSM2025), Mugla, Turkiye, Apr. 26-May 3, 2025

008. “Ambient-pressure growth of Ruddlesden-Popper nickelate single crystals”, The 2nd International Workshop on high-Tc Nickelate Superconductors, Hong Kong, China, Dec. 13-16, 2024

007. “Design and synthesis of 3D hybrid Ruddlesden-Popper nickelate single crystals”, 15th International Conference on Atomically Controlled Surfaces, Interfaces and Nanostructures, Suzhou, China, May 10-13, 2024

006. “Charge, spin order and orbital polarization in nickelate single crystals”, Workshop on high-Tc nickelate superconductors, Guangzhou, Nov. 18, 2023

005.“稀土镍氧化合物的单晶生长及物性研究”，第13届无机非金属材料专题研讨会暨无机非金属材料学科优秀学者论坛, 成都，2023年8月25日-27日

004. “Single crystal growth and characterization of rare earth nickelates”, The 2^nd International Conference on Physics under Synergetic Extreme Conditions held jointly with the Summer School of SECUF (SECUF-2023), Huairou, Beijing, July 21-24, 2023

003.“镍基氧化物超导研究”，中国材料大会2021，厦门，2021年7月8日-11日

002.“低价层状镍氧化合物单晶研究进展”，第二届人工晶体材料青年学术会议，宜兴，2020年11月20日-23日

001. “Square-planar trilayer nickelates as a cuprate analogue”, Second Qilu Youth Forum, Shandong University, Jinan, Shandong, China, Oct. 2017

 

 

国际国内学术会议会议主持 Conference session chairs

003. “Superconductivity in Nickel-Based and Related Materials" Session Chair, The 2nd International Workshop on high-Tc nickelate superconductors, Hong Kong, China, Dec. 16, 2024

002. “Other nickelates and perovskite transition metal oxides" Session Chair, Workshop on high-Tc nickelate superconductors, Guangzhou, Nov. 18, 2023

001. “Manganites and Cobaltites" Session Chair, American Physical Society March Meeting 2016, Baltimore, Maryland, United States, March 14, 2016

  

 

国际国内学术会议口头报告及墙报 Oral talks and posters

016. “Ambient-pressure crystal growth and superconductivity up to 96 K in pressurized nickelate single crystals” Vebleo Fellow Lecture, Vebleo Webinar on Science, Engineering and Technology, Virtual, Mar. 27-28, 2026

015. “High pO₂ flux growth and characterization of perovskite NdNiO₃ crystals” Contributed talk, International Conference on Crystal Growth and Epitaxy (ICCGE-20), Naples, Italy, July 30-Aug.4, 2023

014. “Intertwined density waves in a metallic nickelate” Contributed talk, APS March Meeting, Virtual, Mar.15-19 2021

013. “Antiferromagnetism in a rocksalt high entropy oxide” Contributed talk, APS March Meeting, Boston, Massachusetts, USA, Mar. 2019 

012. “Long range antiferromagnetic order and lattice dynamics in a rocksalt high entropy oxide” Contributed talk, 85^th Annual Meeting of the APS Southeastern Section, Knoxville, Tennessee, USA, Nov. 2018 

011. “Mimicking cuprates: large orbital polarization in square-planar nickelates” Contributed talk, APS March Meeting, New Orleans, Louisiana, USA, Mar. 2017 

010. “Single crystal preparation and long-range charge fluctuations in the square-planar nickelate La₄Ni₃O₈” Contributed talk, APS March Meeting, Baltimore, MD, USA, Mar. 2016 

009. “Brownmillerite Ca₂Co₂O₅: Synthesis, Stability, and Re-entrant Single Crystal to Single Crystal Structural Transitions” Contributed talk, APS March Meeting, San Antonio, TX, USA, Mar. 2015 

008. “Brownmillerite Ca₂Co₂O₅: re-entrant structural transitions and canted antiferromagnetism”, ICMR Summer School and Workshop on advances in oxide materials: preparation, properties, performance. Poster, University of California, Santa Barbara, CA, USA, Aug. 2014

007. “Top-seeded solution growth and characterization of the multifunctional crystal Cs₂TeMo₃O₁₂”, Contributed talk, 16^th Chinese Conference on Crystal Growth and Materials (CCCG-16), Hefei, Anhui, China, Oct. 2012

006. “Synthesis, growth and characterization of the telluromolybdate nonlinear optical crystals”, Contributed talk, The Conference on Technology for Advanced Crystal Growth Equipments, Weihai, Shandong, China, Jul. 2012

005. “Growth and characterization of the polar crystal Cs₂TeMo₃O₁₂”, Contributed talk, Chinese Materials Conference 2012 (Section H: Functional Crystal Materials), Taiyuan, Shanxi, China, Jul. 2012

004. “Synthesis, crystal growth of α-BaTeMo₂O₉ and the relationship between α- and β-BaTeMo₂O₉”, Poster, The 12^th Conference on Solid State Chemistry and Inorganic Synthesis (CSSCIS), Qingdao, Shandong, China, Jun. 2012

003. “Top-seeded solution growth, morphology, and properties of a polar crystal Cs₂TeMo₃O₁₂”, Poster, The 18^th American Conference on Crystal Growth(ACCGE-18), Monterey, CA, USA, Aug. 2011

002. “Growth of high quality BaTeMo₂O₉ single crystals”, Poster, The 16^th International Conference on Crystal Growth (ICCG-16), Beijing, China, Aug. 2010

001. “Micro-morphology and Growth Mechanism of the BaTeMo₂O₉ crystal”, Poster, The 15^th Chinese Conference on Crystal Growth and Materials (CCCG-15), Ningbo, Zhejiang, China, Nov. 2009