MOCVD Routes to Tl2Ba2Can-1CunO4+2nSuperconductor and Dielectric Insulator Thin Films

Le Journal De Physique Colloques Pub Date : 1995-06-01 DOI:10.1051/JPHYSCOL:1995546

B. Hinds, D. Studebaker, Jian‐Hong Chen, R. McNeely, B. Han, J. Schindler, T. Hogan, C. Kannewurf, T. Marks

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Abstract

The evolution of HTS device technologies will benefit from the development of MOCVD (Metal-organic Chemical Vapor Deposition) routes to high quality HTS films as well as to those of insulators with low dielectric loss and close HTS lattice matches. Reviewed here are research efforts at precursor design focusing on Ba sources. A novel low pressure TGA technique is used to compare volatilities of MOCVD precursors and to quantify the role of gas phase diffusion in film growth. To form high quality Tl 2 Ba 2 Ca n-1 Cu n O 4+2n (n = 2,3) films, BaCaCuO(F) films are first deposited by MOCVD using the liquid precursors Ba(hfa) 2 .mep, Ca(hfa) 2 .tet, and solid Cu(dpm) 2 (hfa = hexafluoroacetylacetonate, dpm = dipivaloylmethanate. mep = methylethylpentaglyme, tet = tetraglyme). The film growth process is shown to be mass transport-limited, and an interesting ligand exchange process is identified. The superconducting TBCCO phase is formed following an ex-situ anneal in the presence of Tl 2 O at temperatures from 820-900°C. Transport properties of TBCCO-2223 films include a T C as high as 115K. J C of 2x10 5 A/cm 2 (77K), and Rs of 0.35mΩ (5K, 10 GHz). The MOCVD growth of low loss, lattice-matched dielectric NdGaO 3 , PrGaO 3 , Sr 2 AlTaO 6 , and SrPrGaO 4 films is also discussed. High quality YBa 2 Cu 3 O 7-x films have been grown upon MOCVD-derived PrGaO 3 substrates.

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MOCVD制备Tl2Ba2Can-1CunO4+ 2n超导体和介电绝缘体薄膜

高温超导器件技术的发展将受益于MOCVD(金属有机化学气相沉积)途径的发展，以获得高质量的高温超导薄膜，以及具有低介电损耗和接近高温超导晶格匹配的绝缘体。本文综述了以钡源为中心的前驱体设计的研究进展。采用一种新颖的低压热重分析技术来比较MOCVD前驱体的挥发性，并量化气相扩散在薄膜生长中的作用。为了制备高质量的Tl 2 Ba 2 Ca n-1 Cu n O 4+2n (n = 2,3)薄膜，首先采用MOCVD法制备了液态前驱体Ba(hfa) 2 .mep、Ca(hfa) 2 .tet和固态Cu(dpm) 2 (hfa =六氟乙酰丙酮酸，dpm =二戊基甲烷酸)。Mep =甲基乙基五烯酰胺，tet =四烯酰胺)。薄膜的生长过程受到质量输运的限制，并确定了一个有趣的配体交换过程。在tl2o存在下，在820 ~ 900℃的温度下进行非原位退火，形成超导TBCCO相。tbco -2223薄膜的输运性能包括高达115K的tc。jc为2 × 10 5a / cm2 (77K)， Rs为0.35mΩ (5K, 10ghz)。本文还讨论了低损耗、晶格匹配介质NdGaO 3、PrGaO 3、Sr 2、AlTaO 6和SrPrGaO 4薄膜的MOCVD生长。在mocvd衍生的PrGaO 3衬底上生长了高质量的YBa 2 Cu 3 O 7-x薄膜。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Le Journal De Physique Colloques

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