☆June 2019: PNAS
发现一类不同寻常的铜基高温超导新材料 　　　　置顶！
Superconductivity in a unique type of copper oxide
Research highlight EurekAlert news,Supercond. week, 基金委, 中科院(CAS), 中科院之声, 中科院物理所(IOP) and 材料科学与工程
Commontary:

☆Jan. 2024: Mater Today Phys
发现铌基富氢高温超体
　(Superconductivity discovered in niobium polyhydride at high pressures)

☆Dec. 2023: Natl Sci Rev
发现碲基富氢高温超体
　(Superconductivity with Tc 116 K Discovered in Antimony Polyhydrides)

☆Sep. 2023: Chin. Phys. Lett. (Express Letter)
钪元素超导突破30K
　(Superconductivity above 30K Achieved in Dense Scandium)
Research highlight: CPL Express Letter, 中科院物理所(IOP)

☆March 2023: Adv. Mater.
发现极低冷却场诱导的巨大交换偏置效应新材料
　(Giant Exchange-Bias-Like Effect at Low Cooling Fields Induced by Pinned Magnetic Domains in Y2NiIrO6 Double Perovskite)
Research highlight: 中科院物理所(IOP)

☆March 2023: Sci. China Phys. Mech. Astro.
发现镥基富氢高温超导体
　(Superconductivity above 70 K observed in lutetium polyhydrides)
Research highlight: 中国科学杂志社(SCPMA)

☆Jan. 2023: Phy. Rev. B (Editor Suggestion)
PbCrO3高压诱导金属绝缘体相变过程中Pb的价态稳定性
　(Stability of the Pb divalent state in insulating and metallic PbCrO3)

☆Sept. 2022: Nat. Commun.
钛刷新元素超导纪录
　(Record High Tc Elemental Superconductivity Achieved In Titanium)
Research highlight: 中科院物理所（IOP）

☆Aug. 2022: Mater. Today Phys.
发现铪基富氢化物高温超导
　(Superconductivity above 80 K in polyhydrides of hafnium)
Research highlight: 中科院物理所（IOP）

☆May 2022: Nat. Commun.
钙基富氢新材料研制和210K以上高压超导
　(Superconductivity above 200 K discovered in superhydrides of calcium)
Research highlight: 中科院物理所（IOP）

☆Mar. 2022: Sci. Bull.
发现锆基富氢化物高温超导
　(Superconductivity in zirconium polyhydrides with Tc above 70K)
Research highlight: 中科院物理所（IOP）

☆Apri 2022: Nature
LiFeAs体系中实现大面积、高度有序和可调控的“马约拉纳零能模‘格点阵列’”
(Ordered and tunable Majorana-zero-mode lattice in naturally-strained LiFeAs )
Research highlight: 中科院（CAS）, 中科院物理所（IOP）

☆Mar. 2022: Adv. Mater.
时间空间反演对称同时破缺模型材料的发现
　(A Ferrotoroidic Candidate with Well-Separated Spin Chains )
Research highlight: 中科院（CAS）, 中科院物理所（IOP）, 中国材料研究学会，材料科学与工程

☆May 2022: Sci. Bull.
发现锆基富氢化物高温超导
　(Superconductivity in zirconium polyhydrides with Tc above 70K)
Research highlight: 中科院物理所（IOP）

☆Oct. 2021: Nat. Commn.
LiFeAs中发现带状褶皱取向调控超导态
　(Two distinct superconducting states controlled by orientations of local wrinkles in LiFeAs )
Research highlight: 中科院物理所（IOP）

☆Jun. 2021: Nat. Commn.
LiFeAs中实现涡旋马约拉纳零能模
　(Majorana zero modes in impurity-assisted vortex of LiFeAs superconductor)
Research highlight: 中科院物理所（IOP）

☆Mar. 2021: Nat. Commn.
高压制备新颖电荷有序物质及其调控的高温自旋重取向
　(Observation of novel charge ordering and spin reorientation in perovskite oxide PbFeO3)
Research highlight: 中科院（CAS）；中科院物理所（IOP）

☆Mar. 2021: Nat. Commn.
掺杂Mott绝缘体的电子结构演变研究取得重要进展
　（Momentum-resolved visualization of electronic evolution in doping a Mott insulator )
Research highlight: 中科院（CAS）； 中科院物理所（IOP）

☆Feb. 2021: Nat. Commn.
位移铁型电材料PbHg3Ti4O12：架起简单和多阶钙钛矿材料的桥梁
　(A combinatory ferroelectric compound bridging simple ABO3 and A-site-ordered quadruple perovskite)
Research highlight: 中科院（CAS）；中科院物理所（IOP）

☆April 2020: Angew. Chem. Int. Ed.
挑战化学直觉的高压新材料：压力诱发的反常有序-无序相变
　（A Pressure-Induced Inverse Order-Disorder Transition in Double Perovskites )
Research highlight: 中科院（CAS）； 中科院物理所（IOP）
Selected as Coverpage:

☆Mar. 2020: PNAS
具有非完整CuO2面的高Tc过掺杂铜氧化物超导体
　(Local structure of Sr2CuO3.3, a 95 K cuprate superconductor without CuO2 planes)
　(Local lattice distortions and dynamics in extremely overdoped superconducting YSr2Cu2.75Mo0.25O7.54)

☆Feb. 2020: JACS.
在PbCoO3材料中发现系列自旋转变和电荷转移现象
　（Sequential Spin State Transition and Intermetallic Charge Transfer in PbCoO3)
Selected as coverpage:

☆Dec. 2019: Phys. Rev. Lett.
在LiFe1-xCoxAs超导体系中观察到量子相变
　（Quantum Phase Transition of Correlated Iron-Based Superconductivity in LiFe1-xCoxAs)

☆Oct. 2019: NPG Asia Materials
高压合成发现新型准1维材料及维度调控的金属化和超导
（A New Quasi One-Dimensional Compound Ba3TiTe5 and Superconductivity Induced by Pressure）
Research highlight 中科院(CAS), 科学院之声, 中科院物理所(IOP) and 材料科学与工程
selected as featured article:

☆Oct. 2019: NPG Asia Materials
高压制备大线性磁电效应与磁场诱导铁磁-铁电性材料
　（Large linear magnetoelectric effect and field-induced ferromagnetism and ferroelectricity in DyCrO4)

☆Aug. 2019: PNAS
压力诱导准一维拓扑绝缘体α-Bi4Br4的超导转变
　（Pressure-induced phase transitions and superconductivity in a quasi–1-dimensional topological crystalline insulator α-Bi4Br4)

☆Aug. 2019: Science Advance
发现电极催化材料异常电化学过程
　（Exceptional oxygen evolution reactivities on CaCoO3 and SrCoO3 )

☆Feb. 2019: Nature Physics
铁基超导体中发现拓扑半导体态及狄拉克半金属态
　（Multiple topological states in iron-based superconductors )

☆Oct. 2018: Phys. Rev. Lett.
NaFe1-xCoxAs体系中发现向列量子临界点及其相关物理
　（Electron Mass Enhancement near a Nematic Quantum Critical Point in NaFe1-xCoxAs)

☆Jan. 2018: Appl. Phys. Lett.
稀磁半导体(BaNa)(ZnMn)2As2中的散铁磁性研究
　（Asperomagnetic order in diluted magnetic semiconductor (Ba,Na)(Zn,Mn)2As2)

☆Dec. 2017: Chin. Sci. Bull.
“铜系”超导体入选铜氧化物超导发现30周年专辑封面

☆Nov. 2017: Sci. Rep.
稀磁半导体(BaK)(ZnMn)(2)As-2晶体生长及其自旋极化研究
　（Single Crystal Growth and Spin Polarization Measurements of Diluted Magnetic Semiconductor (BaK)(ZnMn)(2)As-2)

☆Nov. 2017: Adv. Mater.
同时具有高电极化强度和强磁电耦合材料：BiMn3Cr4O12
　（Realization of Large Electric Polarization and Strong Magnetoelectric Coupling in BiMn3Cr4O12)

☆Aug. 2017: J. Phys. Chem. Lett.
压力调控的Li2C2电导率非可逆增大及其聚合歧化反应
　（Pressure-Induced Polymerization and Disproportionation of Li2C2 Accompanied with Irreversible Conductivity Enhancement)

☆Jun. 2017: Adv. Mater.
压力对范德瓦尔斯型二维铁磁VS2的调控
　（Modulation of Metal and Insulator States in 2D Ferromagnetic VS2 by van der Waals Interaction Engineering)

☆Apr. 2017: Angew. Chem. Int. Ed.
压力调控的乙炔C2D2的聚合反应：结构各向异性的选择性和可能的石墨烯制备途径
　（Pressure-Induced Polymerization of Acetylene: Structure-Directed Stereoselectivity and a Possible Route to Graphane)

☆Apr. 2017: J. Phys. Chem. Lett.
铅碘基钙钛矿化合物高压调控的多晶形相变及光电性质演化
　（Pressure-Induced Polymorphic, Optical, and Electronic Transitions of Formamidinium Lead Iodide Perovskite)

☆Mar. 2017: PRB
空穴掺杂以及压力对稀磁半导体(Ba1-xKx)(Zn(1-y)Mny)2As2性质的调控
　（Hole doping and pressure effects on the II-II-V-based diluted magnetic semiconductor (Ba1-xKx)(Zn(1-y)Mny)(2)As-2)

☆Feb. 2017: JACS
钙钛矿PbCoO3中A位和B位电荷有序化
　（A-Site and B-Site Charge Orderings in an s-d Level Controlled Perovskite Oxide PbCoO3)

☆Feb. 2017: Scientific Reports
HfTe5：压力调控的强拓扑绝缘体转变及超导转变
　（Superconductivity in HfTe5 across weak to strong topological insulator transition induced via pressures)

☆Jan. 2017: Scientific Reports
BiTeI：压力调控的Rashba型拓扑绝缘体转变及超导转变
　（Superconductivity Bordering Rashba Type Topological Transition)

☆Jan. 2017: Adv. Mater.
超硬硼骨架构造的高速导电通道
　（Ultrastrong Boron Frameworks in ZrB12: A Highway for Electron Conducting)

☆Sep. 2016: Sci. Rep.
(Ba,K)F(Zn,Mn)As:自旋及载流子分别调控型稀磁半导体材料
　（New Fluoride-arsenide Diluted Magnetic Semiconductor (Ba,K) F(Zn,Mn) As with Independent Spin and Charge Doping)

☆Sep. 2016: Chemistry of Materials
A位调控磁有序双钙钛矿结构材料：LaMn3Ni2Mn2O12
　（LaMn3Ni2Mn2O12: An A- and B-Site Ordered Quadruple Perovskite with A-Site Tuning Orthogonal Spin Ordering)

☆Sep. 2016: J. Phys.: Condens. Matter
有机超导体K3C22H14的结构及超导性质
　（Structure and magnetic property of potassium intercalated pentacene: observation of superconducting phase in KxC22H14)

☆Sep. 2016: Phys. Rev. B
(Ba,K)(Zn,Mn)2As2稀磁半导体中的局域原子结构和磁结构
　（Local atomic and magnetic structure of dilute magnetic semiconductor (Ba,K)(Zn,Mn)2As2)

☆Sep. 2016: npj Quantum Materials
三维拓扑狄拉克半金属Cd3As2中高压调控的超导现象
　（Pressure-induced superconductivity in the three-dimensional topological Dirac semimetal Cd3As2)

☆Aug. 2016: Nature Commu.
量子调控的反铁磁Mott绝缘体相变
　（Volume-wise destruction of the antiferromagnetic Mott insulating state through quantum tuning)

☆Jul. 2016: Nature Commu.
VO2(B)材料体系中的压致非晶化和加热再结晶的可逆变化
　（ Reversible switching between pressure-induced amorphization and thermal-driven recrystallization in VO2(B) nanosheets)

☆Jun. 2016: PRL
LiFe1-xCoxAs体系中轨道选择性自旋激发及其对超导的影响
　（ Orbital Selective Spin Excitations and their Impact on Superconductivity of LiFe1-xCoxAs)

☆Jan. 2016:
新一类稀磁半导体入选IEEE面向应用的演生材料路线图

☆Dec. 2015: PNAS
多铁性PbCrO3材料中的非常规异莫特转变
　（Unusual Mott transition in multiferroic PbCrO3)

☆Oct. 2015: JACS
尺寸、压力和多轨道对中性自由基导体金属态的影响
　（The Metallic State in Neutral Radical Conductors: Dimensionality, Pressure and Multiple Orbital Effects)

☆Oct. 2015: Nature Communications
边态调控的斯格明子链及其在受限几何尺寸下的动力学
　（Edge-mediated skyrmion chain and its collective dynamics in a confined geometry)

☆Sept. 2015: Phys. Rev. X
LiFe1-xCoxAs体系中由费米面嵌套引起的自旋涨落及非费米液体行为
　（Spin-Fluctuation-Induced Non-Fermi-Liquid Behavior with Suppressed Superconductivity in LiFe1-xCoxAs)

☆Aug. 2015: Phys. Rev. Lett.
在立方钙钛矿体系LaMn3Cr4O12观察到磁电耦合的多铁性质
　（Observation of magnetoelectric multiferroicity in a cubic perovskite system: LaMn3Cr4O12)

☆Aug. 2015: Acs Nano
压力调控WS2的载流子浓度、迁移率及其导电性质
　（Pressure-Modulated Conductivity, Carrier Density, and Mobility of Multi layered Tungsten Disulfide)

☆Apr. 2015: Phys. Rev. B (Rapid Communication)
光电谱和X光吸收谱研究稀磁半导体 Ba1-xKx(Zn1-yMny)2As2
　（Photoemission and x-ray absorption studies of the isostructural to Fe-based superconductors diluted magnetic semiconductor Ba1-xKx(Zn1-yMny)2As2)

☆Mar. 2015: JACS
新型清洁可再生能源氢的催化剂：MoS2
　（A New Molybdenum Nitride Catalyst with Rhombohedral MoS2 Structure for Hydrogenation Applications)

☆Mar. 2015: Phys. Rev. X
无局域磁矩的铁磁性化合物中量子临界现象及非费米液体行为
　（Non-Fermi Liquid Behavior Close to a Quantum Critical Point in a Ferromagnetic State without Local Moments)

☆Feb. 2015: Adv. Mater.
新型具有Ni3TeO6结构的电极化磁性氧化物：Mn2FeWO6
　（Mn2FeWO6 : a New Ni3TeO6 -Type Polar and Magnetic Oxide)

☆Jan. 2015: Nature Communications
　在LiFeAs超导体系中观察到费米面以下的超导配对现象
　（Observation of strong electron pairing on bands without Fermi surfaces in LiFe1-xCoxAs)

☆Oct. 2014: Scientific Reports
　 压力诱导强自旋轨道耦合材料Sb2Se3的超导
　（Superconductivity in Strong Spin Orbital Coupling Compound Sb2Se3)
Research highlights: 中国科学院、中科院物理所

☆Sept. 2014: Scientific Reports
　 压力调控磁铁矿Fe3O4的奇异性质
　（Abnormal Elastic and Vibrational Behaviors of Magnetite at High Pressures)

☆Aug. 2014: PNAS & Nature Communications
　 新型水合物研制取得重要进展
　（Crystal structure and encapsulation dynamics of ice II-structured neon hydrate) &
(Encapsulation kinetics and dynamics of carbon monoxide in clathrate hydrate)
Research highlights: 中国科学院、中科院物理所

☆Jun. 2014: Chin. Sci. Bull.
　 新型稀磁半导体居里温度突破230K
　(Ferromagnetism at 230 K in (Ba0.7K0.3)(Zn0.85Mn0.15)2As2 diluted magnetic semiconductor)
入选美国科学促进会主办的“EurekAlert! Science News”
Selected as roadmap

☆May. 2014: Nature Communications
　 在MoS2体系观察到压力诱导半导体－金属相变
　（Pressure-induced semiconducting to metallic transition in multilayered molybdenum disulphide)

☆Mar. 2014: Nature Physics
　 在"111"体系NaFeAs的结构转变温度之上观察到电子晶列相和反铁磁涨落
　（Visualization of electron nematicity and unidirectional antiferroic fluctuations at high temperatures in NaFeAs)
Selected as coverpage & News and Views by Davis & Hirschfeld

☆Jan. 2014: Scientific Reports
　 在PbTiO3体系中实现压力诱导体积热缩的反转
　（Pressure-induced reversal between thermal contraction and expansion in ferroelectric PbTiO3)

☆Jan. 2014: Scientific Reports
　 压力调控SrFe2As2磁相变和晶体结构相变演化
　（Magnetic and structural transitions of SrFe2As2 at high pressure and low Temperature)

☆Nov. 2013: Proc. Natl. Acad. Sci.
　 压力调控BaFe2As2磁有序和结构演化
　（Pressure-decoupled magnetic and structural transitions of the parent compound of iron-based 122 superconductors BaFe2As2)
Research highlights: 中国科学院、中科院物理所

☆Aug. 2013: Phys. Rev. B (Rapid Communications)
　 发现自旋电荷注入机制分离的“111”型稀磁半导体LiZnP
　（Diluted ferromagnetic semiconductor Li(Zn,Mn)P with decoupled charge and spin doping)

☆Aug. 2013: J. Phys.: Condens Matter
(Fast Track Communication)
　 拓扑绝缘体Bi2Se3高压超导性研究取得进展
　（Superconductivity of the topological insulator Bi2Se3 at high pressure)

☆June 2013: Scientific Reports
　 拓扑绝缘体Sb2Te3压力诱导超导转变
　（Superconductivity in Topological Insulator Sb2Te3 Induced by Pressure)
Research highlights: 中国科学院、中科院物理所
入选中科院2013年度研究报告

☆Feb. 2013: Science China
　 铜氧化物Sr2CuO3+δ单晶的高压生长及其超导性质
　（Growth of Sr2CuO3+δ superconductor single crystals at high pressure)
Research Highlights: selected as a cover page of Science China

☆Feb. 2013: Nature Communications
　居里温度高于180K的新型稀磁半导体材料：(Ba,K)(Zn,Mn)2As2
　（New diluted ferromagnetic semiconductor with Curie temperature up to 180 K and isostructural to the ‘122’ iron-based superconductors)
Research Highlights: 中国科学院、中科院物理所、国家自然科学基金委

☆July 2012: Phys. Rev. Lett.
　 高压诱导T'-La4Ni3O8结构相变及高自旋态的演化
　（Pressure Effect on the Structural Transition and Suppression of the High-Spin State in the Triple-Layer T’-La4Ni3O8)

☆Jun. 2012: J. Appl. Phys.
　 拓扑绝缘体Bi2Te3高压诱导结构演化
　（The comprehensive phase evolution for Bi2Te3 topological compound as function of pressure)
Research highlights: Selected as a cover page of J. Appl. Phys.

☆Aug. 2011: Nature Communications
　 新一代I-II-V稀磁半导体材料：Li(Zn, Mn)As
　（Li(Zn,Mn)As as a new generation ferromagnet based on a I–II–V semiconductor)
Research highlights: 中国科学院（CAS）(English version) 、 中科院物理所（IOP） 以及国家自然科学基金委
入选中科院2012年年度报告

☆Jun. 2011: J. Am. Chem. Soc. (JACS)
　 "111"型NaFeAs压力调控的结构及超导
　（Pressure-Induced Isostructural Phase Transition and Correlation of FeAs Coordination with the Superconducting Properties of 111-Type Na1-xFeAs)
Research highlights: 中国科学院（CAS）(English version) & 中科院物理所（IOP） (English version)

☆Dec. 2010: Proc. Natl Acad. Sci. (PNAS)
　 压力诱导的拓扑超导
　（ Pressure induced superconductivity in topological compound)
Research highlights: 中国科学院（CAS） & 中科院物理所（IOP）
Seleted as "Hundred Most Influential Scientific Papers of China in 2011"

☆Jul. 2010: New J. Phys.
　 在正交相HoMnO3材料中得到最高本征铁电极化
　（Determination of the intrinsic ferroelectric polarization in orthorhombic HoMnO3)

☆Jul. 2010: Phys. Rev. B
　 "111"型铁基超导体LiFeP的压力温度超导相图
　（Temperature-pressure phase diagram of the superconducting iron pnictide LiFeP)

☆Jun. 2010: J. Phys.: Condens. Matter
　在(Ca,Na)Fe2As2 体系中得到Tc>33K的超导转变
（Superconductivity above 33K in (Ca,Na)Fe2As2）
Research highlights: IOP Asia-Pacific

☆Dec. 2009:Europhysics Letters
　在“111”型铁基超导体系中得到最高Tc
（Superconductivity at 31K in the "111" type iron arsenide superconductor Na1-xFeAs induced by pressure)

☆Sept. 2009: Phy. Rev. B 　
　单层铜氧面的铜氧化物高温超导体最高Tc达到98K　
（Out-of-plane effect on the superconductivity of Sr2-xBaxCuO3+σ with Tc up to 98 K）（Selected as editor's suggested paper）(comments on this paper)

☆Aug. 2009:Europhysics Letters
　 新“111”型铁基超导：LiFeP
　（A new “111” type iron pnictide superconductor LiFeP)

☆Aug. 2009:Physics Today
　 美国“今日物理”介绍我组发现的“111”型铁基超导
　（Iron-based superconductors)

☆Jun. 2009:J. Phys. Soc. Jpn.
　 铁基超导体发现者Hosono教授撰写铁基超导综述文章
　(To What Extent Iron-Pnictide New Superconductors Have Been Clarified: A Progress Report)

☆Mar. 2009: Nature （京都大学化学研究所的工作）
　LaCu3Fe4O12钙钛矿结构中温度诱导的A-B位原子间的电荷转移 　
　（Temperature-induced A–B intersite charge transfer in an A-site-ordered LaCu3Fe4O12 perovskite ）

☆Aug. 2008: Phys. Rev. Lett.
　BaRuO3的巡游磁性临界性质　
　（Critical Behavior of the Ferromagnetic Perovskite BaRuO3）

☆Aug. 2008: J. Am. Chem. Soc. (JACS)
　发现NdFeAs(O0.88F0.12)铁基超导体高压等结构相变　
　（Structure stability and compressibility of iron-based superconductor Nd(O0.88F0.12)FeAs under high pressure）
Research highlight: Annul Progress (2008) of National Light Sourse (NSLS) of Bookhevan National Lab (BNL)

☆Jun. 2008: Solid State Commun.
　 发现"111"型铁基高温超导体：LiFeAs　
　　（The discovery of "111"-type iron arsenide superconductor of LiFeAs with Tc ~18K）
Highlighted by Prof. Hosono who discovered the first iron based superconductor J. Phys. Soc.Jpn. 78, 062001, 2009
Reviewed in a feature article of Physics Today, 62, 36 (2009)
Top cited article from 2005 to 2010

☆Mar. 2008: Proc. Natl. Acad. Sci. U.S.A. (PNAS)
　高压合成新型量子序物质　
　（High-pressure synthesis of the cubic perovskite BaRuO3 and evolution of ferromagnetism in ARuO3 (A ＝ Ca, Sr, Ba) ruthenates）
Research Highlight: Nature China
Research Highlight: PNAS
Research Highlight: 中科院（CAS）& 中科院物理所IOP (in Chinese)

☆新型带宽调制型Mott体的高压金属化相变研究
　　（Anomalous Electronic State in CaCrO3 and SrCrO3 ）

☆多铁性化合物的高压合成和性质研究
　　（Ordered oxygen-deficient superlattice from electron irradiation of biferroic BiMnO3）

☆新型含卤素超导体
　　（High pressure synthesis of a new superconductor Sr2CuO2+xCl2-y induced by “apical oxygen doping“）