在蓝宝石上生长CeO2 缓冲层的原位双温工艺法及Tl-2212薄膜的技术改进

报道了在蓝宝石衬底上制备CeO₂缓冲层的原位双温工艺法及其对Tl₂Ｂa₂CaCu₂Ｏ₈（Tl-2212）薄膜超导特性的影响．XPS和AFM测试结果表明,采用原位双温工艺法制备缓冲层,具有工艺简单,薄膜表面光滑,衬底材料原子扩散量少等特点．在先驱膜的高温后退火过程中,40 nm厚的CeO₂薄膜就能有效地阻挡衬底材料对超导薄膜底层的扩散．随后制备厚度为530 nm的Tl-2212 关键词： Tl-2212超导薄膜 蓝宝石 氧化铈缓冲层 原位双温工艺法     

CeO2/Nb2O5界面效应对提高CeO2氧敏特性的XPS研究

用射频/直流磁控溅射法制备了CeO₂/Nb₂O₅双层氧敏薄膜，利用X射线光电子能谱(XPS)，描述并解释了单层CeO₂薄膜中氧随温度变化的动力学行为，以及CeO₂/Nb₂O₅薄膜界面对氧敏特性的影响.通过对Ce3d XPS谱的高斯拟合，计算了Ce³⁺浓度并给出了判定Ce⁴⁺还原的标志.结果表明，界面效应可以提高CeO₂/Nb₂O₅薄膜中Ce⁴⁺的还原能力，使之远远高于单层CeO₂薄膜，这对薄膜的氧敏特性是极为有利的. 关键词：     

插入二氧化铈薄膜提高MOD-YBa2Cu3O7-x厚膜超导性能的研究

YBa₂Cu₃O_7-x(YBCO)膜存在“厚度效应”: 随着厚度增加, YBCO薄膜的临界电流密度下降, 尤其是YBCO薄膜的厚度超过1 μm时, 它的临界电流密度急剧下降. 本文在YBCO薄膜之间引入极薄的二氧化铈(CeO₂)薄膜, 成功制备出结构为YBCO/YBCO/CeO₂/YBCO的超导厚膜. 所制备的厚度为2 μm的YBCO膜临界电流密度为1.36 MA/cm² (77 K, 自场), 其性能比相同厚度的纯YBCO膜有了较大幅度的提升. 研究表明CeO₂薄膜起到了传递织构、松弛应力的作用.     

YBa2Cu3O7-x涂层导体的外延生长和性能对CeO2缓冲层的依赖性

利用倾斜衬底沉积法在无织构的金属衬底上生长了MgO双轴织构的模板层,在这一模板层上实现了YBa₂Cu₃O_7-x薄膜的外延生长.在外延YBa₂Cu₃O_7-x薄膜前,依次沉积了钇稳定的立方氧化锆和CeO₂作为缓冲层.利用X射线衍射2θ扫描、扫描、Ω扫描和极图分析测定了这些膜的结构和双轴织 关键词： 2Cu₃O_7-x镀膜导体')" href="#">YBa₂Cu₃O_7-x镀膜导体 2缓冲层')" href="#">CeO₂缓冲层 厚度依赖性 外延生长     

蓝宝石衬底上Gd2O3掺杂CeO2氧离子导体电解质薄膜的生长及电学性能

采用反应磁控溅射方法,在(0001)蓝宝石单晶衬底上,制备了纳米多晶Gd₂O₃掺杂CeO₂(GDC)氧离子导体电解质薄膜,采用X射线衍射仪(XRD)、原子力显微镜(AFM)对薄膜物相、结构、粗糙度、表面形貌等生长特性进行了表征,利用交流阻抗谱仪测试了GDC薄膜不同温度下的电学性能;实验结果表明,GDC薄膜为面心立方结构,在所研究的衬底温度范围内,均呈强(111)织构生长;薄膜表面形貌随衬底温度发生阶段性变化：衬底温度由室温升高到300℃时, 关键词： 2O₃掺杂CeO₂电解质薄膜')" href="#">Gd₂O₃掺杂CeO₂电解质薄膜 反应磁控溅射 生长特性 电学性能     

YBa2Cu3O7-δ/LaAlO3和Tl2Ba2CaCu2O8/LaAlO3高温超导薄膜内的应变对其微波表面电阻影响的研究

YBa₂Cu₃O_7-δ/LaAlO₃ (YBCO/LAO) 超导薄膜是通过热蒸发沉积方法制备的,实验中使用的Tl₂Ba₂CaCu₂O₈/LaAlO₃ (TBCCO/LAO) 超导薄膜是通过直流磁控溅射方法制备的.通过分析两片超导薄膜的XRD谱计算出了两片超导薄膜内的应变,ΔC_{关键词： YBCO/LAO TBCCO/LAO 超导薄膜 应变 表面电阻}     

化学溶液法制备的Pb(Mg1/3Nb2/3)O3-PbTiO3薄膜的光学性能

用化学溶液方法在宝石衬底及有LaNiO₃缓冲层的Pt/TiO₂/SiO₂/Si衬底上制备了92%Pb(Mg_1/3Nb_2/3)O₃-8%PbTiO₃(PMNT)薄膜，X射线衍射测试结果表明：在有LaNiO₃缓冲层的Pt/TiO₂/SiO₂/Si衬底上制备的PMNT薄膜几乎是纯钙钛矿相，且薄膜 关键词： PMNT薄膜 光学性能 化学溶液法     

涂层导体用金属基带表面对过渡层成核的机理研究

涂层导体用金属基带的表面状况对在其上制备的过渡层的形貌和取向有很大影响.在Ni单晶、轧制辅助双轴织构基带(RABiTS)Ni和经过硫化处理的Ni基带三种不同衬底上采用磁控溅射法制备了CeO₂过渡层.结果表明,在Ni单晶和硫化处理的Ni基带上制备的CeO₂薄膜取向较差,而在RABiTS Ni上制备的CeO₂薄膜完全呈c轴取向,表面平整致密.反射高能电子衍射图显示,RABiTS Ni具有的c(2×2)的S超结构对CeO₂薄膜的取向生长起到了很重要的作用. 关键词： 涂层导体 金属基带 超结构 过渡层     

Si基铁电Bi3.15Nd0.85Ti3O12多层薄膜的一致取向生长和性能的研究

采用脉冲激光沉积(PLD)技术，利用LSCO/CeO₂/YSZ多异质缓冲层，在Si(100)基 片上成功地制备了c轴一致取向的Bi_3.15Nd_0.85Ti₃O12(BNT)铁电薄膜.利用X射线衍射(XRD)和扫描电镜(SEM)分析测定了薄膜的相结构 、取向和形貌特征，考察了沉积温度和氧分压对BNT薄膜微结构、取向和形貌的影响，确定 了BNT薄膜的最佳沉积条件.对在优化的条件下制备得到的BNT薄膜的C-V曲线测试得到了典型 的蝴蝶形曲线，表明该薄膜具有较好的电极化反转存储特性.最后讨论了BNT薄膜铁电性能与 薄膜取向的相关性. 关键词： 3.15Nd_0.85Ti₃O₁₂')" href="#">Bi_3.15Nd_0.85Ti₃O₁₂ 铁电薄 膜 多层异质结 脉冲激光沉积     

MgB2 超薄膜的制备和性质研究

利用混合物理化学气相沉积法在6H-SiC(001)衬底上制备干净的MgB₂超导超薄膜.在本底气体压强、载气氢气流量等条件一定的情况下,改变B₂H₆流量及沉积时间,制备得到不同厚度的系列MgB₂超薄膜样品,并研究了超导转变温度T_c、剩余电阻率ρ_(42K)、上临界磁场H_c2等与膜厚的关系.该系列超薄膜沿c轴外延生长,随膜厚度的变小,T_c(0)降低,ρ_(42K)升高.膜在衬底上的生长遵循Volmer-Weber岛状生长模式.对于厚度为7.5 nm的MgB₂超薄膜,T_c(0) =32.8 K,ρ_(42K) =118 μΩcm,是迄今为止所观测到的厚度为7.5 nm的MgB₂超薄膜最高的T_c值;对于厚度为10 nm的MgB₂膜,T_c(0)=35.5 K,ρ_(42K)=17.7 μΩcm,上临界磁场μ₀H_c2估算为12 T左右,零磁场、4 K时的临界电流密度J_c=1.0×10⁷ A/cm²,是迄今为止10 nm厚MgB₂超薄膜的最高J_c值,且其表面连接性良好,均方根粗糙度为0.731 nm.这预示MgB₂超薄膜在超导纳米器件上具有广阔的应用前景. 关键词： 2超薄膜')" href="#">MgB₂超薄膜 薄膜生长 氢气流量 混合物理化学气相沉积     

蓝宝石基片上制备双面Tl_2Ba_2CaCu_2O_8超导薄膜

在蓝宝石基片上,以CeO2为缓冲层制备了高质量的双面Tl2Ba2CaCu2O8(Tl-2212)超导薄膜。以金属铈靶作为溅射源生长了c轴取向的CeO2缓冲薄膜,并对CeO2薄膜进行了高温处理,有效改善了其结晶质量和表面形貌。采用两步法制备了双面的Tl-2212超导薄膜。XRD测试显示,薄膜为纯的Tl-2212相,且其晶格c轴垂直于衬底表面。超导薄膜的Tc为106K,Jc(77K,0T)为3.5MA/cm2,微波表面电阻Rs(77K,10GHz)为390μΩ。     

Tl系超导薄膜金属涂层的生长与特性研究

我们研究了Tl-2212超导薄膜在带有YSZ/CeO2缓冲层和带有CeO2/YSZ/CeO2缓冲层的Ni金属RABiTS基带上的生长情况.基带上的缓冲层是采用PLD方法制备的,Tl-2212薄膜的制备采用了磁控溅射和后热处理两步方法.XRD 实验结果表明,Tl-2212薄膜都具有很好的C轴垂直于膜面的织构,并具有双向外延生长特性.在CeO2/YSZ/CeO2/Ni基带上制作的Tl-2212薄膜的Tc达到102.8 K,Jc(77 K,0 T)达到2.6 MA/cm2;在YSZ/CeO2/Ni基带上薄膜Tc可达97.7 K,Jc(77 K,0 T)也可以达到0.45 MA/cm2.     

高温退火对蓝宝石基片的表面形貌和对CeO2缓冲层以及Tl-2212超导薄膜生长的影响

研究了蓝宝石(1102)基片在不同温度和时间下退火时表面形貌和表面相结构的变化,以及它对CeO₂缓冲层和Tl-2212超导薄膜生长的影响.原子力显微镜(AFM)研究表明,在流动氧环境中1000℃温度下退火,蓝宝石(1102)的表面首先局部区域形成台阶结构,然后表面形成叠层台阶结构,随着退火时间的延长,表面发生了台阶合并现象,表面形貌最终演化为稳定的具有光滑平台的宽台阶结构.XRD测试表明,通过高温热处理可以大幅度提高蓝宝石基片表面结构的完整性.在1000℃温度下热处理20 h的蓝宝石 关键词： Tl-2212超导薄膜 蓝宝石 缓冲层     

T1系超导薄膜金属涂层的生长与特性研究

我们研究了T1-2212超导薄膜在带有YSZ／CeO2缓冲层和带有Ce02／YSZ／CeO2缓冲层的Ni金属RABiTS基带上的生长情况．基带上的缓冲层是采用PLD方法制备的，T1-2212薄膜的制备采用了磁控溅射和后热处理两步方法．XRD实验结果表明。T1-2212薄膜都具有很好的C轴垂直于膜面的织构，并具有双向外延生长特性．在CeO2／YSZ／CeO2／Ni基带上制作的T1-2212薄膜的Tc达到102．8K，J,（77K,0T）达到2.6MA／cm^2；在YSZ／CeO2／Ni基带上薄膜Tc可达97．7K，Jc（77K,0T）也可以达到0．45MA／cm^2.     

采用快速升温烧结方法生长Tl-1223超导薄膜的研究

报道了在铝酸镧(00l)衬底上生长Tl-1223超导薄膜的快速升温烧结方法以及铊(Tl)源陪烧靶的配比对Tl-1223薄膜晶体结构的影响.扫描电子显微镜观测表明,采用快速升温烧结方法生长的Tl-1223超导薄膜具有致密的晶体结构.X-射线衍射等测试表明,采用合适配比的陪烧靶在氩气环境下可以制备出纯c轴取向的Tl-1223超导薄膜,充氧退火后的薄膜具有较好的电学性能,其临界转变温度T_(c onset)达到116K,临界电流密度达到1.5MA/cm~2(77 K,0 T).实验结果表明,采用这一新的烧结方法制备Tl系超导薄膜具有升降温时间和恒温时间短、生产成本低等特点.     

Preparation of YBCO film for microwave filter using a hybrid route

Pure (0 0 l)-textured CeO₂ buffer layers were deposited on single crystal r-plane Al₂O₃ (1–102) substrate by a hybrid process which was combined with magnetron sputtering for the seed layer and metal–organic deposition for the subsequent layer. Strongly c-axis oriented YBCO films were deposited on the CeO₂ buffered r-cut Al₂O₃ (1–102) substrates. Atomic force microscope and scanning electronic microscopy results show that the prepared buffers and YBCO films are relatively dense and smooth. The critical current of the YBCO films exceeds 1.5 MA/cm² at 77 K with the superconducting transition temperature of 90 K. The surface resistivity is as below as 14 μΩ at 1 GHz frequency. The results demonstrate that the hybrid route is a very promising method to prepare YBCO films for microwave application, which can combine the sputtering advantage for preparing of highly c-axis oriented CeO₂ buffer layers and the advantages of metal–organic deposition with rapid processing, low cost and easy preparation of large-area YBCO films.     

Fabrication of Tl_2Ba_2CaCu_2O_8 superconducting films without thallium pellets

A new improved two-step method in fabricating Tl_2Ba_2 CaCu_2O_8(Tl-2212) thin films is presented in this paper. In the first process of dc magnetron sputtering, the thallium content in the precursor film is largely increased by adjusting the ratio of thallium in the sputtering targets. After the second annealing process in the absence of additional thallium pellets or powder source, high-quality Tl-2212 thin films can be obtained. The proper content of thallium in the precursor film provides a relatively stable atmosphere to guarantee the growth of Tl-2212 film. This method avoids the repeated production of the thallium pellets in the post-annealing process, the repeatability and controllability of the experiment are greatly improved. X-ray diffraction(XRD) scans show that all of the sharp peaks of the sample films can be assigned to the(00 l) peaks of Tl-2212 phase. The highest superconducting critical temperature(Tc) of the films is 105 K and the critical current density(Jc) can achieve 1.93 MA/cm2 in zero magnetic field at 77 K for a 600 nm film.     

Effect of cation composition on the superconducting properties and on the microstructure of YBaCuO thin films

The surface morphology and superconducting properties of YBaCuO epitaxial films prepared through magnetron sputtering from targets of different cation composition were systematically studied. It was shown that small changes in the growth conditions and relatively small variations in the cation composition of the condensate noticeably affect the surface morphology of the films and their structural and superconducting properties, thus offering an efficient way of controlling the YBCO film parameters. It was found that the 90° off-axis configuration of the magnetron sputtering system permits realization of growth conditions in which the grown films do not contain CuO precipitates and exhibit good superconducting properties (T_c≥88 K, j_c(77 K)≥4×10⁶ A/cm²).     

Influence of the reaction conditions on the formation of Tl(Re)-Ba-Ca-Cu-O superconducting thin films by thallination in open system

Rhenium avoids air degradation of the target as well as of precursor thin films during the preparation of high temperature Tl-based superconductors. Addition of Re has been used during synthesis of oriented Tl(Re)-Ba-Ca-Cu-O films. High temperature superconducting Tl-based thin films were prepared by a two step method combining RF magnetron sputtering and ex-situ thallination. Precursors with a composition of Re_0.1Ba₂Ca₂Cu₃O_x were deposited on a CeO₂ buffered R-plane sapphire substrate. The sputtered films were prepared at room temperature in an Ar atmosphere. The thallination of the precursor films was performed in a one zone configuration, where both the pellet and precursor film were kept at the same temperature. The thallination temperature varied in the range of 850–880°C and samples were held for 30, 45 and 60 min at this temperature in a flowing oxygen atmosphere. Besides Tl-2212, X-ray diffraction reveals the possibility of also preparing the Tl-2223 phase, which was until now not reported in a Re doped form. Presented at 5-th International Conference Solid State Surfaces and Interfaces, November 19–24, 2006, Smolenice Castle, Slovakia     

Synthesis and microwave properties of TI2Ba2CaCu2O8 superconducting films grown by MOCVD

We report on the synthesis, structural and electrical characterization of high quality Tl₂Ba₂Ca₁Cu₂O₈ (Tl-2212) superconducting films. The samples have been grown ex-situ on mm² LaAlO₃ (100) substrates by a combined approach of metal-organic chemical vapor deposition (MOCVD) and thallium vapor diffusion. The morphological and compositional nature of the c-axis oriented films has been investigated by SEM and X-ray analyses. Typical values of K and MA/cm² at 77 K have been measured. Microwave measurements have been performed at f = 87 GHz inserting the film in a copper cavity and at f =1.5 GHz on patterned samples using a microstrip resonator technique. A penetration depth nm is evaluated by fitting the microwave data with phenomenological equations. The minimum value of the surface resistance measured at 4.2 K is 60 and 6 m at 1.5 GHz and 87 GHz respectively. The microwave data are described in the context of a modified two fluid model. An evaluation of the temperature dependence of the scattering rate has been performed through the simultaneous measurement of the surface resistance and the penetration depth. Received 16 December 1999 and Received in final form 17 March 2000