Quantum Design中国用户科研成果快报(2023年第3期)
《Quantum Design中国用户科研成果快报》是由Quantum Design中国定期汇总Quantum Design中国用户(包括综合物性测量PPMS、全新一代磁学测量系统MPMS3用户等)在众多研究领域的近期科研成果,为大家的相关科学研究提供参考。
本期文献目录:
1. Low-pass filters based on van der Waals ferromagnets. Nature Electronics (2023) 复旦大学 修发贤.
2. Enhanced Superconductivity and Upper Critical Field in Ta-Doped Weyl Semimetal Td-MoTe2. Adv Mater (2023) 南京大学 宋凤麒.
3. Room-Temperature Magnetism in 2D MnGa4-H Induced by Hydrogen Insertion. Adv Mater (2023) 中科院物理所 龙有文.
4. Unveiling strong ion-electron-lattice coupling and electronic antidoping in hydrogenated perovskite nickelate. Adv Mater (2023) 清华大学 于浦.
5. Giant and Nonvolatile Control of Exchange Bias in Fe3GeTe2/Irradiated Fe3GeTe2/MgO Heterostructure Through Ultralow Voltage. Advanced Functional Materials (2023) 科大 陆亚林.
6. Giant piezoresistivity in a van der Waals material induced by intralayer atomic motions. Nat Commun (2023) 浙江大学 袁辉球.
7. Synthesis of Two-Dimensional MoO2 Nanoplates with Large Linear Magnetoresistance and Nonlinear Hall Effect. Nano Letters (2023) 湖南大学 段曦东.
8. High-performance non-Fermi-liquid metallic thermoelectric materials. npj Computational Materials (2023) 南方科技大学 张文清.
9. A nanogenerator based on metal nanoparticles and magnetic ionic gradients. NPG Asia Materials (2023) 国家纳米科学中心 鄢勇.
10. Regulation of the Electronic Properties of Graphene via Organic Molecular Intercalation. Chemistry of Materials (2023) 湖南大学 段曦东.
11. Extreme Enhanced Curie Temperature and Perpendicular Exchange Bias in Freestanding Ferromagnetic Superlattices. ACS Appl Mater Interfaces (2023) 山东大学 颜世申.
12. Simultaneous enhancement of coercivity and electric resistivity of Nd-Fe-B magnets by Pr-Tb-Al-Cu synergistic grain boundary diffusion toward high-temperature motor rotors. Journal of Materials Science & Technology (2023) 华南理工大学 刘仲武.
13. Magnetoresistance anomaly in Fe5GeTe2 homo-junctions induced by its intrinsic transition. Nano Research (2023) 北京科技大学 王守国.
14. Origin of hard magnetism in Fe-Co-Ni-Al-Ti-Cu high-entropy alloy: Chemical shape anisotropy. Acta Materialia (2023) 西安交通大学 马天宇.
15. Purely Electrical Controllable Spin–Orbit Torque‐Based Reconfigurable Physically Unclonable Functions. Advanced Electronic Materials (2023) 山东大学 颜世申.
16. Manipulation of the Ferromagnetism in LaCoO3 Thin Films Through Cation‐Stoichiometric Engineering. Advanced Electronic Materials (2023) 清华大学 于浦.
17. Reduction of the mechanical anisotropy in hot-deformed Nd-Fe-B magnets by the construction of heterogeneous structure. Journal of Alloys and Compounds (2023) 中科院宁波材料所 陈仁杰.
18. Anisotropic magneto-transport behavior in a hexagonal ferromagnetic EuCuP single crystal. Journal of Alloys and Compounds (2023) 山西师范大学 许小红.
19. Strong Magnetocaloric Coupling in Oxyorthosilicate with Dense Gd3+ Spins. Inorg Chem (2023) 中科院物理所 龙有文.
20. Structure, Magnetotransport, and Theoretical Study on the Layered Antiferromagnet Topological Phase EuCd2As2 under High Pressure. Advanced Quantum Technologies (2023) 上海科技大学 郭艳峰.
21. Fermi-Level-Dependent Charge-to-Spin Conversion of the Two-Dimensional Electron Gas at the γ-Al2O3/KTaO3 Interface. Physical Review Applied (2023) 中科院物理所 于国强.
22. A new ternary molybdenum phospho-silicide Mo3Si2P: Phase equilibria, structural, electronic, transport and thermal properties. Journal of Physics and Chemistry of Solids (2023) 中科院物理所 任治安.
23. Magnetic Properties and Phase Diagram of the Honeycomb Layered Na2Ni2TeO6 Single Crystal under a High Magnetic Field. The Journal of Physical Chemistry C (2023) 华中科技大学 夏正才.
24. Magnetic properties and rare earth element diffusion behavior of hot-deformed nanocrystalline dual-main-phase Nd-Ce-Fe-B magnets. RSC Adv (2023) 华南理工大学 刘仲武.
25. Effect of Subtle Changes on the Slow Relaxation Behavior of Co(II) Ions Based Metal-Organic Frameworks. Crystal Growth & Design (2023) 南京大学 宋友.
26. Enhanced longitudinal and transverse thermopowers at low temperature in quasi-one-dimensional antiferromagnet KMn6Bi5. Applied Physics Letters (2023) 中科院物理所 任治安.
27. Single-crystal growth and physical properties of LaMn0.86Sb2. Physical Review B (2023) 重庆大学 周小元.
28. Mg doping enhanced magnetoelectric effect in the polar magnet Fe2Mo3O8. Physical Review B (2023) 中科院物理所 龙有文.
29. Electrical transport under extreme conditions in the spin-ladder antiferromagnet TaFe1.25Te3. Physical Review B (2023) 浙江大学 曹光旱.
30. Controllable unidirectional magnetoresistance in ferromagnetic films with broken symmetry. Physical Review B (2023) 山东大学 颜世申.
31. Noncoplanar antiferromagnetism induced zero thermal expansion behavior in the antiperovskite Mn3Sn0.5Zn0.5Cx. Physical Review B (2023) 北航大学 郝维昌.
32. Fe-doping modulated critical behavior and magnetocaloric effect of magnetic Weyl Co3Sn2S2. Physical Review B (2023) 北京科技大学 王守国.
33. Antiferromagnetic topological insulating state in Tb0.02Bi1.08Sb0.9Te2S single crystals. Physical Review B (2023) 东南大学 董帅.
34. Multiple magnetic phases and magnetization plateaus in TbRh6Ge4. Physical Review B (2023) 浙江大学 袁辉球.
35. Anisotropy optimization of HDDR magnetic powders by precursor alloy annealing. Materials Letters (2023) 中科院宁波材料所 陈仁杰.
36. Microstructure and coercivity modification of HDDR (Pr, Nd, Ce)-Fe-B magnetic powders by grain boundary diffusion with Pr-Fe-Al-Ga. Materials Letters (2023) 中科院宁波材料所 陈仁杰.
37. Abnormal sign change of angle-dependent magnetoresistance in polycrystalline WTe2 nanoplate. Physica E: Low-dimensional Systems and Nanostructures (2023) 中南大学 郭光华.
38. Tunability of magnetization in hexagonal perovskite Sr6Co5O15 ceramics through 20% Fe-substitution. Journal of Magnetism and Magnetic Materials (2023) 中科大 陆亚林.
39. Effect of ferromagnetic Fe96.5Si3.5 dopant on microstructure and magnetic properties of hot-deformed Nd-Fe-B magnets. Journal of Magnetism and Magnetic Materials (2023) 中科院宁波材料所 陈仁杰.
40. Superconducting phase diagram of lanthanum films on the substrate of Si(100). Physica B: Condensed Matter (2023) 上海大学 曹世勋.
41. Electric transport properties of Cu-doped NbTe2 single crystals. Physica B: Condensed Matter (2023) 上海大学 曹世勋.
42. High-pressure single crystal growth and magnetoelectric properties of CdMn7O12. J Phys Condens Matter (2023) 中科院物理所 龙有文.
43. Coexistence of logarithmic and SdH quantum oscillations in ferromagnetic Cr-doped tellurium single crystals. J Phys Condens Matter (2023) 广州大学 郑仁奎.
44. Superconductivity in Mo4Ga20As with endohedral gallium clusters. J Phys Condens Matter (2023) 中科院物理所 任治安.
45. Unusual spin-orbit torque switching in perpendicular synthetic antiferromagnets with strong interlayer exchange coupling. J Phys Condens Matter (2023) 中科院物理所 于国强.
46. Transport properties of CrP. Chinese Physics B (2023) 中科院物理所 雒建林.
47. Superconductivity in epitaxially grown LaVO3/KTaO3(111) heterostructures. Chinese Physics B (2023) 浙江大学 谢燕武.
48. Abnormal magnetoresistance effect in the Nb/Si superconductor–semiconductor heterojunction. Chinese Physics B (2023) 中科院物理所 邱祥冈.
49.High-Field Magnetization and ESR Studies of Two-Dimensional Triangular-Lattice Antiferromagnet Cu2(OH)3Cl. Applied Magnetic Resonance (2023) 华中科技大学 夏正才.
50. Anomalous Hall effect of facing-target sputtered Fe3SnN epitaxial film. Journal of Physics D: Applied Physics (2023) 天津大学 米文博.
51. Colossal negative magnetoresistance in spin glass Na(Zn,Mn)Sb. Journal of Semiconductors (2023) 中科院物理所 靳常青.
52. Temperature dependence of magnetic moment of rare earth ions in ErFeO3 and NdFeO3 single crystals. Phys Chem Chem Phys (2023) 上海大学 曹世勋.
53. Unlocking the charge doping effect in softly intercalated ultrathin ferromagnetic superlattice. eScience (2023) 杭州电子科技大学 李领伟
复旦大学 修发贤等
Low-pass filters based on van der Waals ferromagnets. Nature Electronics (2023)
摘要
二维(2D)磁铁材料具有优良的电学和机械性能,并可用于创建二维纳米机电系统。然而,大多数二维磁体的居里温度很低,限制了其实际应用。本文基于分子束外延生长了晶圆级高品质的碲化铁锗(Fe5+xGeTe2)薄膜,并构建了范德华铁磁低通滤波器。通过原位铁掺杂,Fe5+xGeTe2体系的居里温度可以从260 ~ 380 K连续调制。与不带磁芯的电感相比,采用少层Fe5+xGeTe2制备平面螺旋电感在室温下的电感增强了74%。基于高性能电感器,课题组进一步构建了一系列巴特沃斯低通滤波器,首次实现了截止频率可调的、动态范围高达40dB的低通滤波器。通过在电感-电容电路中使用不同的电感器,可以将-3 dB截止频率从18 Hz调谐到30 Hz。
PPMS Resistivity + MPMS
The Hall effect measurements were conducted in conventional six-point Hall bar devices (dimensions, 6 mm×3 mm) using a physical property measurement system (Quantum Design). The magnetization measurements were carried out in a d.c. SQUID (Quantum Design) with a magnetic field up to 7 T.
南京大学 宋凤麒等
Enhanced Superconductivity and Upper Critical Field in Ta-Doped Weyl Semimetal Td -MoTe2. Adv Mater (2023)
摘要
二维过渡金属二硫族化合物是下一代电子和自旋电子学的潜在平台。层状Weyl半金属(W,Mo)Te2系列具有结构相变、不饱和磁阻、超导性和奇特的拓扑物理特性。然而,在不施加高压情况下,块体(W,Mo)Te2的超导临界温度仍然很低。本文发现,当Ta掺杂到达0≤x≤0.22时,Mo1−xTaxTe2单晶的超导性显著增强,转变温度提升到7.5 K,可以归因于费米能级态密度的增加。此外,在Mo1−xTaxTe2 (x = 0.08) Td相中观察到超过泡利极限的垂直上临界场增加到14.5 T,这可能源于空间反演对称性破环,导致非常规的单重态-三重态混合超导。这项工作为探索过渡金属二硫族化合物的奇异超导性和拓扑物理提供了新的途径。
PPMS Resistivity + MPMS
The electrical transport measurements were carried out using a physical property measurement system (PPMS) (Dynacool-14T, Quantum Design). A superconducting quantum interference device magnetometer (SQUID) (MPMS, Quantum Design) was used to measure the magnetization of bulk crystals.
中科院物理所 龙有文等
Room-Temperature Magnetism in 2D MnGa4-H Induced by Hydrogen Insertion. Adv Mater (2023)
摘要
二维室温磁性材料在未来的自旋电子器件中具有重要意义,但目前的报道很少。本文采用等离子体增强化学气相沉积方法制备了厚度为2.2 nm的二维室温磁性MnGa4-H单晶。H2等离子体的使用使得氢原子可以很容易地插入到MnGa4晶格中来调节原子距离和电荷态,从而在不破坏结构构型的情况下实现铁磁性。所获得的二维MnGa4-H晶体具有高质量、空气稳定性和热稳定性,居里温度更是高达620K以上。这项工作丰富了二维室温铁磁材料家族,为基于二维磁性合金的自旋电子器件开发提供了新的可能。
PPMS Resistivity + MPMS
The magnetic susceptibility and magnetization measurements were carried out using a superconducting quantum interference device magnetometer (Quantum Design, MPMS-VSM). The longitudinal resistance was collected by a pulse relaxation method on a physical property measurement system (Quantum Design, PPMS-9T) varying from 300 to 2 K under zero magnetic fields. The Hall electrical resistance was measured by a physical property measurement system calorimeter (Quantum Design, PPMS-9T).
清华大学 于浦等
Unveiling strong ion-electron-lattice coupling and electronic antidoping in hydrogenated perovskite nickelate. Adv Mater (2023)
摘要
原子尺度解码关联材料中的离子-电子-晶格耦合和能带结构具有重要应用前景,但也极具挑战,因为这些自由度之间具有强烈而复杂的相关性。本文以钙钛矿镍酸盐NdNiO3外延薄膜为模型体系,证明了氢离子诱导的巨大晶格畸变和NiO6八面体旋转增强,从而在一系列衬底上形成了晶格膨胀大于10%的新型氢化HNdNiO3相。此外,在离子-电子协同掺杂的作用下,发现了电子反掺杂,即掺杂电子主要填充基态氧的2p空穴,而不是将Ni的氧化态从Ni3+转变为Ni2+,主导了金属-绝缘体的转变。最 后,通过电场控制的氢离子嵌入及其与晶格和电子电荷的强耦合,制备出具有不同结构态和电子态的选择性微米尺度图案。研究结果为关联物理中离子-电子-晶格强耦合提供了直接证据,并展示了其在设计新型材料和器件方面的潜在应用。
PPMS Resistivity
We used a physical property measurement system (PPMS; Quantum Design) to measure the temperature-dependent electrical resistivity of pristine and gated NNO thin film samples with a four-probe method (to eliminate contact resistance).
中科大 陆亚林等
Giant and Nonvolatile Control of Exchange Bias in Fe3GeTe2/Irradiated Fe3GeTe2/MgO Heterostructure Through Ultralow Voltage. Advanced Functional Materials (2023)
摘要
范德华磁体的发现为电控磁性提供了一个新的平台。近来实验表明,范德华磁体的磁性可以通过栅极调制,但大部分都具有易失性,并且要求栅极电压不低于几伏。本文实现了Fe3GeTe2/MgO异质结构中交换偏置和矫顽力场的非易失性调控,栅极电压低至几十mV,比以往实验降低了两个数量级。通过MgO溅射,在Fe3GeTe2中形成离子辐照相,进而在此异质结构中获得了交换偏置效应,在5~20 mV的电压范围内调制偏置700~0Oe。氧化Fe3GeTe2具有高稳定性,来自辐照相的氧在电压驱动下与Fe3GeTe2结合,引起非易失磁调制,在切断栅压后仍可以保留。本文的发现展示了一种调节范德华磁体磁性的方法,为使用范德华材料制造全固体、非易失和低耗散的纳米电子器件开辟了新道路。
PPMS Resistivity
Magnetotransport measurements were conducted via a physical property measurement system (PPMS, Quantum Design) with a homemade sample holder for gating the FGT/MgO heterostructure.
浙江大学 袁辉球等
Giant piezoresistivity in a van der Waals material induced by intralayer atomic motions. Nat Commun (2023)
摘要
层状材料中范德华隙的存在创造了大量不同于传统材料的有趣现象。例如,加压可以沿堆叠方向产生各向异性晶格收缩和/或层间滑动,并诱发一系列压力依赖的奇特物性。本文报告了β'-In2Se3中巨大压阻性。仅压缩1.2 GPa,β'-In2Se3薄片的电阻率下降了6个数量级,产生了一个巨大的压阻系数πp=−5.33 GPa−1。同时,样品从半导体转变为半金属,并未伴随结构相变。令人惊讶的是,线性二色性研究和理论第 一原理模型表明,这些现象并非范德华隙收缩或滑动导致的,而是由五层结构内部相关原子运动主导的,主要是中间层Se原子向其高对称位置移动。原子运动与能带结构调制和面内铁电偶极子密切有关。本文不仅发现了一种优秀的压阻材料,而且指出了超越范德华间隙的层内原子运动的重要性。
PPMS Resistivity
The resistivity and Hall voltage were measured in four-probe geometry in a Physical Property Measurement System (PPMS, Quantum Design).
湖南大学 段曦东等
Synthesis of Two-Dimensional MoO2 Nanoplates with Large Linear Magnetoresistance and Nonlinear Hall Effect. Nano Letters (2023)
摘要
二维(2D)材料因具有大线性磁阻(LMR)而在磁存储或传感器器件领域极具潜力。本文通过化学气相沉积法(CVD) 制备二维MoO2纳米片,观察到其具有大LMR行为和非线性霍尔行为。得到的MoO2纳米片具有菱形形状和高结晶度。电学研究表明,MoO2纳米片具有优异的金属性,在2.5 K下的电导率高达3.7×107 S m–1 。磁阻方面,MoO2纳米片的大LMR在3 K和-9T时高达455%,厚度依赖实验表明,LMR值随着纳米片厚度的增加而增加。此外,磁场依赖霍尔电阻呈非线性,随温度升高而减小。本文的研究强调,MoO2纳米片是一种有前景的基础研究材料,在磁存储器件中具有潜在的应用前景。
PPMS Resistivity & Rotator
Hall devices with a six-terminal Hall bar structure were measured in a physical property measurement system (PPMS, Quantum Design).
南方科技大学 张文清等
High-performance non-Fermi-liquid metallic thermoelectric materials. npj Computational Materials (2023)
摘要
窄带半导体中高性能热电(TE)材料的研究存在瓶颈,本文另辟蹊径,发现金属化合物TiFexCu2x−1Sb和TiFe1.33Sb热电性质可与最 先进的TE材料相媲美,其热功率和热电优值zTs超过众多TE半导体的。2-700 K的准线性温度依赖电阻率和低温下对数温度依赖的电子比热与高热功率共存,表明了电子的非费米液体(NFL)量子临界行为与TE输运的强耦合。电子结构分析揭示了反铁磁(AFM)有序和类近藤自旋补偿之间的竞争,以及平行双通道近藤效应。T依赖磁化率曲线符合强局部关联的量子临界假设。本文证明了高TE性能、NFL量子临界性和磁涨落之间的相关性,为未来的研究开辟了方向。
PPMS TTO & DR HC
Low temperature TE properties (5–350 K) including σ, S, and κ were measured using a physical property measurement system (PPMS, Quantum Design, USA) with the thermal transport option (TTO). Low-temperature specific heat capacity (CP) was measured by the PPMS with a dilution refrigerator option (PPMS-DR, Quantum Design, USA).