第二代高温超导材料钇钡铜氧(YBCO)由于具有高的临界电流密度、高临界磁场等,近几十年来引起世界各国研究人员的高度关注.本文介绍了YBCO粉末及薄膜的性质及应用及各种制备方法,分析讨论了各种方法的优缺点,并提出制备方法存在的问题以及展望.
参考文献
| [1] | LV Xu-dong,古宏伟,LI Tao,丁发柱,WANG Lian-hong.TFA-MOD技术制备YBCO涂层导体影响因素研究[J].稀土,2008(04):71-80,97. |
| [2] | 杨德林,胡行,郭益群,阎宏杰,李志成,彭奎庆,孟令启,高之爽.钇钡铜氧在气体纯化和空分方面应用初探[J].稀土,2002(03):11-13. |
| [3] | 刘铃声,许延辉,熊晓柏,曹鸿璋,孟志军,王英杰.稀土纳米材料的研究进展[J].稀土,2012(06):84-89. |
| [4] | 杨遇春.稀土高温超导体开发应用进展[J].稀土,1999(05):67-73. |
| [5] | WANG Jue,MALOUFI Nabila,FAN Zhanguo,XUE Xiangxin,ESLING Claude.Microstructure and texture analysis of YBCO thick film with peritectic growth on unoriented silver substrate[J].稀土学报(英文版),2009(03):474-479. |
| [6] | XIONG Jie,QIN Wenfeng,TANG Jinlong,TAO Bowan,CUI Xumei,LI Yanrong.Preparation and characterization of microcrack-free thick YBa2Cu3O7-δ films[J].稀有金属(英文版),2007(05):403-407. |
| [7] | Lombardi F;Bauch T;Johansson J;Cedergren K;Lindstrom T;Tafuri F;Stepantsov E .Quantum properties of d-wave YBa2Cu3O7-delta Josephson junction[J].Physica, C. Superconductivity and its applications,2006(1/2):8-11. |
| [8] | 缪蕊平,齐秀贞,赵勇.YBCO粉末研究的最新进展[J].福州大学学报(自然科学版),2005(01):94-97,110. |
| [9] | 袁冠森.第二代高温超导带材涂层导体的研究[J].低温物理学报,2003(z2):501-505. |
| [10] | 关效贤,孙晶,张亮,刘景和,朱忠丽,黄宗坦,曾德群,黄江平.Φ100 mm YBCO高温超导材料及应用研究[J].中国稀土学报,2002(z2):101-103. |
| [11] | 张选民,郭娟,赵会仙,李友明.固相反应法制备高温超导材料YBCO实验的研究[J].大学物理实验,2011(06):1-5. |
| [12] | 赫文秀,安胜利,张永强,王亚雄,张金超.改进固相法制备钙钛矿结构La1-x Srx Ga1-y Mgy O3-δ及其性质研究[J].稀土,2011(05):1-5. |
| [13] | 鲁彦忠,孙爱民,刘恒伟,马耀通,马金元.柠檬酸盐热分解法制备YBCO纳米超导材料[J].低温与超导,2010(08):44-47. |
| [14] | 鲁彦忠,孙爱民,刘恒伟,马耀通,马金元.柠檬酸盐热分解法制备YBCO纳米超导材料[J].低温与超导,2010(08):44-47. |
| [15] | 王顺青,孙爱民,朱海滨,张涛,黄国海.柠檬酸盐热分解法制备纳米YBCO超导粉末[J].低温与超导,2007(04):326-328. |
| [16] | 王道云,赵元黎.直流磁控溅射法制备YBCO超导薄膜研究[J].电子与封装,2011(09):34-37. |
| [17] | Foltyn SR.;DePaula RF.;Dowden PC.;Coulter JY.;Groves JR. Haussamen LN.;Winston LP.;Jia QX.;Maley MP.;Arendt PN. .Development of meter-long YBCO coated conductors produced by ion beam assisted deposition and pulsed laser deposition[J].Physica, C. Superconductivity and its applications,2000(Pt.4):2305-2308. |
| [18] | 敖育红,胡少六,龙华,徐业斌,王又青.脉冲激光沉积薄膜技术研究新进展[J].激光技术,2003(05):453-456,459. |
| [19] | 于海涛,宋希文,牟仁德,何利民,谢敏,周芬,安胜利.电子束物理气相沉积YSZ热障涂层研究[J].稀土,2011(03):40-43. |
| [20] | Develos-Bagarinao K;Yamasaki H;Nakagawa Y;Endo K .Relationship between composition and surface morphology in YBCO films deposited by large-area PLD[J].Physica, C. Superconductivity and its applications,2004(Pt.2):1286-1290. |
| [21] | 张黄莉,赵高扬.化学溶液沉积(CSD)法制备YBCO薄膜研究进展[J].低温与超导,2010(09):31-33,40. |
| [22] | WANG Lianhong,LI Tao,GU Hongwei.Effect of humidity on microstructure and properties of YBCO film prepared by TFA-MOD method[J].稀土学报(英文版),2009(03):486-489. |
| [23] | 叶帅,索红莉,刘敏,汤潇,吴紫平,周美玲.低氟MOD法制备Zr掺杂YBCO薄膜的研究[J].无机材料学报,2009(06):1205-1208. |
| [24] | 陈欢,Teresa Puig,Xavier Granadors,Xavier Obradors,韩征和.TFA-MOD法制备YBCO薄膜生长速率研究[J].低温与超导,2010(08):28-31,47. |
| [25] | 金利华,卢亚锋,王鹏飞,张国防,张云,王耀,李成山.TFA-MOD技术制备YBCO超导层的热解机理研究[J].稀有金属材料与工程,2012(08):1439-1442. |
| [26] | Haugan T.J.;Barnes P.N.;Campbell T.A.;Evans J.M.;Kell J.W.;Brunke L.B.;Murphy J.P.;Varanasi C.;Maartense I.;Wong-Ng W.;Cook L.P. .Addition of alternate phase nanoparticle dispersions to enhance flux pinning of Y-Ba-Cu-O thin films[J].IEEE Transactions on Applied Superconductivity: A Publication of the IEEE Superconductivity Committee,2005(2):3770-3773. |
| [27] | Xu Y;Goyal A;Leonard KJ;Specht ED;Shi D;Paranthaman M .Processing dependence of texture, and critical properties of YBa2Cu3O7-delta films on RABiTS substrates by a non-fluorine MOD method[J].Journal of the American Ceramic Society,2006(3):914-920. |
| [28] | 戴邵康,于淼,陶伯万,高磊.金属有机物化学气相法制备YBCO超导薄膜研究[J].低温与超导,2010(03):32-35. |
| [29] | 李艳红,刘景和,李建立,张亮.Sol-gel法合成YBa2Cu3O7-δ超细粉[J].长春理工大学学报,2002(04):39-41. |
| [30] | 雷黎,赵高扬,刘晓梅,赵娟娟.低氟溶胶-凝胶法制备Φ76.2mmYBCO薄膜[J].稀有金属材料与工程,2010(06):1116-1120. |
| [31] | 王瑞芬,张胤.纳米CeO2粉体制备方法的研究进展[J].稀土,2011(02):82-86. |
| [32] | 云月厚,李国栋.溶胶-凝胶法制备的(La1-xCex)2/3Sr1/3MnO3超微粉末微波吸收特性研究[J].稀土,2011(02):34-39. |
| [33] | 陈源清,赵高扬.溶胶-凝胶法制备YBa2Cu3O7-δ超细粉体[J].材料热处理学报,2006(01):1-3. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%