电子束蒸发制备YBCO超导薄膜研究

采用电子束沉积制备YBCO超导薄膜,研究了760℃—840℃的不同退火温度下高温热处理对YBCO薄膜双轴织构、表面形貌及超导性能的影响。超导临界电流密度测试、X射线衍射(XRD)和扫描电镜(SEM)的结果表明,退火温度在在800℃时,YBCO薄膜具有良好的织构和平整致密的表面形貌,在77K自场下的临界电流密度J可达4.2×106/cm2。     

化学溶液沉积制备氧化石墨烯掺杂YBCO薄膜

YBCO薄膜在液氮温区具有优异的性能,围绕低成本溶液沉积技术和新型添加剂的研究是目前研究热点.采用化学溶液沉积技术成功制备出氧化石墨烯掺杂YBCO薄膜。通过在YBCO前驱液中引人氧化石墨烯,改变YBCO胶体的热解行为,促进YBCO前驱体的分解.在晶化过程中,氧化石墨烯有利于抑制YBCO晶粒长大.结果表明,适量添加氧化石墨烯可以改善YBCO薄膜的微观形貌和外延生长,提高超导层的性能.     

化学溶液沉积法制备YBCO薄膜的快速分解工艺研究

文中对化学溶液沉积法快速制备YBCO薄膜的工艺进行了探索。通过对分解工艺的优化,成功将薄膜的干燥分解时间缩短到1小时以内,而传统工艺则需要10小时以上的处理时间。以快速分解工艺成相的YBCO薄膜的X射线衍射、扫面电镜和物性测量结果表明薄膜具有良好的c轴外延织构,表面微观形貌平整致密,临界超导转变温度(Tc)为92K。     

化学溶液法La_2Zr_2O_7缓冲层的厚度对外延生长超导层的影响（英文）

采用全化学溶液沉积方法在NiW衬底上制备La_2Zr_2O_7缓冲层和YBCO薄膜.采用X射线衍射和扫描电镜研究了不同的LZO缓冲层厚度对超导层的影响.不同厚度LZO的面内外织构具有一定差别.当LZO厚度达到145nm时,LZO缓冲层的织构和阻隔能力最佳,才能制备出具有良好性能YBCO超导层.     

YBa2 Cu3 O7-δ/SrNb0.01 Ti0.99 O3 p-n结的制备及其特性

采用脉冲激光沉积技术,在n型SrNb0.01Ti0.99O3(SNTO)单晶基片上生长p型YBa2Cu3O7-δ(YBCO)薄膜,制备出YBCO/SNTO p-n结.YBCO薄膜是高度c轴织构的超导薄膜,且具有良好的超导电性.YBCO/SNTO p-n结具有较好的整流特性和很好的温度与磁场稳定性.     

短时高温热处理工艺对YBCO超导薄膜结构和性能的影响

通过无氟高分子辅助金属有机物沉积法(PA-MOD)制备了YBCO超导薄膜,研究了785～845℃的不同短时高温热处理对YBCO薄膜双轴织构、表面形貌及超导性能的影响.X射线衍射(XRD)和扫描电镜(SEM)的结果表明,经800℃短时高温处理的YBCO薄膜具有良好的双轴织构和平整致密的表面形貌.物性测量(Quantum-DesignSQUID)的结果表明,该薄膜超导转变温度达到90K,77K自场下的临界电流密度(Jc)为2MA/cm2.     

沉积温度对YBCO薄膜取向的影响

采用脉冲激光沉积技术(PLD)在SrTiO3(100)单晶衬底上制备YBCO薄膜,用X射线对薄膜的取向和织构进行表征,用扫描电子显微镜(SEM)对薄膜的表面形貌进行观察.实验主要研究了衬底温度对薄膜外延取向的影响,结果表明在770℃温度下制备的YBCO有较多的a轴晶粒生成,在800℃温度下制备的YBCO是纯的c轴取向,且平均面内φ扫描半高宽(FWHM)为1.2°,超导转变宽度(△Tc)为0.9K.     

YBCO超导层的a轴晶生长研究

采用化学溶液沉积制备YBCO薄膜,研究了氧分压对YBCO超导层a轴晶生长的影响.研究发现氧分压是YBCO薄膜a轴晶形成的关键因素.当氧分压改变,YBCO生长模式由c轴生长转变为过渡到a(b)-c混合生长模式.低氧分压可以促进YBCO的c轴生长.高氧分压影响YBCO超导层的微观结构,促使YBCO的织构取向变差,最终导致YBCO超导层的性能降低.     

前驱液成分对TFA-MOD法制备YBa2Cu3O7-x薄膜超导性能的影响

采用三氟乙酸盐-金属有机沉积法(TFA-MOD)在铝酸镧单晶基体上制备了YBa₂Cu₃O_7-x (YBCO)超导薄膜.通过改变前驱液的成分,研究了金属元素的不同化学计量比对YBCO薄膜的结构和性能的影响.结果表明,按照钇盐Y(CH₃COO)₃与钡盐Ba(CH₃COO)₂的比例为Y ∶Ba=1 ∶1.5时所制备的YBCO薄膜的临界电流密度比严 关键词： 三氟乙酸盐-金属有机沉积 钇钡铜氧薄膜 前驱液成分 磁通钉扎     

YBa2Cu3O7－δ/SrNb0.01Ti0.99O3 p-n结的制备及其特性

采用脉冲激光沉积技术，在n型SrNb001Ti099O3(SNTO)单晶基片上生长p型YBa2Cu3O7-δ(YBCO)薄膜，制备出YBCO/SNTO p n结.YBCO薄膜是高度c轴织构的超导薄膜，且具有良好的超导电性.YBCO/SNTO p n结具有较好的整流特性和很好的温度与磁场稳定性. 关键词： YBa2Cu3O7-δ SrNb001Ti099O3 p n结     

Fabrication of YBCO／YSZ and YBCO／MgO thick films using electrophoretic deposition with top-seeded melt growth process

Superconducting thick films were grown on single crystals MgO and YSZ by electrophoretic deposition with Y_2BaCuO_5(Y211) addition. YBCO thick films were then accomplished by sintering the precursor films above the peritectic temperature. Single crystals of MgO (3×3×0.5 mm^3) were used as top-seed to control crystal structure of the thick films. As shown by scanning electron microscopy, the morphologies of YBCO/YSZ and YBCO/MgO thick films are spherulitic texture and platelet type. The critical temperature is ～89 K for the YBCO/YSZ thick film; the onset transition temperature is 86.4 K and the transition width is ～3 K for YBCO/MgO thick film. The critical current densities (as determined by Bean model) are, in A/cm^2, 3870 (77 K) for YBCO/YSZ thick films and 2399 (77 K) for YBCO/MgO thick films, which are comparable to the best J_c reported of the thick films prepared by the same method.     

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.     

化学溶液沉积(CSD)法制备YBCO薄膜研究进展

采用CSD法制备YBCO薄膜可精确的控制组份,不需要真空设备,成为近年来的研究热点之一。文中概述了CSD法制备YBCO薄膜的研究进展,总结了在不同的CSD工艺中,起始原料、化学添加剂对YBCO薄膜热处理时间、质量、可重复性等因素的影响。     

湿度对YBCO薄膜微观结构和超导性能的影响

文中采用无氟高分子辅助金属有机物沉积法( PA - MOD)在不同湿度条件下在LaAlO3单晶基底上制备了一系列YBCO超导薄膜.X射线衍射、扫描电镜和物性测量的结果表明,在成相热处理过程中气氛湿度对YBCO薄膜的结构和超导性能的有明显影响.干燥气氛成相的YBCO薄膜织构较好,表面较平整、致密,超导性能也较高,其临界超...     

Effect of La2Zr2O7-buffered YSZ substrate on YBa2Cu3Oy thin films by chemical solution deposition

Epitaxial YBa₂Cu₃O_y (YBCO) thin films have been fabricated by chemical solution deposition (CSD) on La₂Zr₂O₇-buffered YSZ single crystal substrate, where the buffer layer has three kinds of morphology – flat surface, rough surface and pore surface. The effect of LZO buffer layer’s roughness on the YBCO films was evaluated by X-ray diffraction, scanning electron microscopy and temperature-dependent resistivity measurements. The flat surface of LZO layer is beneficial to highly epitaxial YBCO films and high critical current density.     

Enhanced flux-pinning in fluorine-free MOD YBCO films by chemical doping

YBCO films without and with dilute cobalt and zinc doping were prepared on (0 0 l) LaAlO₃ substrate by non-fluorine metal organic deposition method. Effects of dilute cobalt and zinc doping on biaxial texture, microstructure and flux-pinning properties of YBCO films were investigated. The surface density and smoothness of the doped YBCO films have been distinctly improved compared with that of the pure film. Dilute cobalt- and zinc-doped YBCO films exhibit significantly enhanced J_c values in the magnetic field. The best result is achieved in the cobalt-doped YBCO film. At 77 K, J_c values of cobalt-doped film are 1.7 and 5.4 times higher than that of pure film in 0.5 T and 1.5 T, respectively. These results strongly suggest that dilute cobalt and zinc doping is a promising way to increase the current carrying capability of YBCO films.     

PREPARATION OF a-AXIS ORIENTED YBa2Cu3Ox THIN FILMS

The a-axis oriented YBa₂Cu₃O_x(YBCO) thin films could be grown on (100) SrTiO₃(STO) substrates with STO buffer layers by dc and rf magnetron sputtering either by low-ering the deposition temperature, or by using a self-template technique. For the latter, the resistivity of the thin film at 290K along the substrate [001] direction is about four times larger than that in the [010] direction. The zero resistance temperatures T_c0 are 89 K in both directions. So high quality a-axis oriented YBCO thin films can be prepared by the self-template technique. Also the T_c0 increase monotonously with the reduction of the thickness of the YBCO seed layer.     

Influence of MgO surface conditions on the in-plane crystal orientation and critical current density of epitaxial YBCO films

The effect of magnesium oxide (MgO) surface conditions on in-plane grain orientation and critical current density of epitaxial YBa₂Cu₃O₇ (YBCO) films was systematically investigated. The MgO substrates were either “as received” or stored for some time, cleaned using different methods and lithographically prepared for our step-edge junction devices. The YBCO films were grown via reactive thermal co-evaporation by Theva, GmbH. The surface characterisation of MgO substrates was studied using X-ray photoelectron spectroscopy (XPS). The in-plane grain orientation of the YBCO films was studied by means of X-ray diffraction (XRD) φ-scan and the critical current density was measured for the XRD scanned samples. The surface condition of the MgO substrates was found to have a strong influence on the in-plane grain orientation and the critical current density of the YBCO films. The MgO substrates with a degraded or contaminated surface gave rise to 45° grain misorientation in YBCO films and reduced the critical current density. A final process step using a low energy Ar ion beam etching (IBE) of the MgO substrates prior to the YBCO film deposition was found effective in removing the in-plane grain misorientation and promoting the growth of perfectly aligned c-axis YBCO films.