Radio Frequency Magnetron Sputtering of GdBa2Cu3O7&#8722;&#948;/ La0.67Sr0.33MnO3 Quasi-bilayer Films on SrTiO3 (STO) Single-crystal Substrates

Ying Wang; Zhen Li; YongSheng Liu; Yijie Li; Linfei Liu; Da Xu; Xiaojing Luo; Tian Gao; Yanyan Zhu; Luozeng Zhou; Jianming Xu

doi:10.3791/58069

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Radio Frequency Magnetron Sputtering of GdBa₂Cu₃O₇₋_δ/ La_0.67Sr_0.33MnO₃ Quasi-bilayer Films on SrTiO₃ (STO) Single-crystal Substrates

تردد الراديو ماغي اﻷخرق جدبا2Cu3س7−δ/La0.67ريال0.33منو3 بلير شبه أفلام على ركائز واحدة-كريستال3 (ستو) سرتيو

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06:49 min

April 12, 2019

DOI: 10.3791/58069-v

Ying Wang^1,2, Zhen Li^1,2, YongSheng Liu¹, Yijie Li², Linfei Liu², Da Xu², Xiaojing Luo¹, Tian Gao^1,3, Yanyan Zhu^1,4, Luozeng Zhou³, Jianming Xu³

¹Department of Physics, Mathematics, Shanghai Key Laboratory of Materials Protection and Advanced Materials in Electric Power,Shanghai University of Electric Power, ²Key Laboratory of Artificial Structure and Quantum Control, Ministry of Education, Department of Physics,Shanghai Jiao Tong University, ³Shanghai Institute of Space Power-sources, ⁴Shanghai Key Laboratory of High Temperature Superconductors,Shanghai University

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Overview

This article presents a protocol for growing LSMO nanoparticles and Gd BCO films on SrTiO₃ single-crystal substrates using radio frequency sputtering. The method allows for uniform deposition of nanoparticles and films in the same vacuum chamber.

Key Study Components

Area of Science

Nanoparticle synthesis
Thin film deposition
Superconducting materials

Background

LSMO nanoparticles are important for various applications.
GBCO films are known for their superconducting properties.
Combining these materials can enhance performance in electronic devices.
Utilizing the same vacuum chamber streamlines the deposition process.

Purpose of Study

To develop a method for uniform growth of LSMO nanoparticles.
To achieve high-quality GBCO films on single-crystal substrates.
To provide insights into film and nanoparticle growth areas.

Methods Used

Radio frequency sputtering technique.
Deposition on (001) SrTiO₃ substrates.
Utilization of a vacuum chamber for simultaneous deposition.
Characterization of nanoparticle and film quality.

Main Results

Uniform size of LSMO nanoparticles achieved.
High-quality superconducting GBCO films deposited.
Insights into the deposition process were gained.
Method applicable for other metal film and nanoparticle deposition.

Conclusions

The protocol allows for efficient deposition of nanoparticles and films.
Researchers can learn about vacuum equipment and film growth technology.
This method has potential applications in various fields of material science.

Frequently Asked Questions

What materials are used in this protocol?

LSMO nanoparticles and Gd BCO films are used in this protocol.

What is the main advantage of this method?

The main advantage is the ability to deposit both nanoparticles and films in the same vacuum chamber.

How does this method contribute to research?

It provides insights into film deposition and nanoparticle growth, enhancing understanding of material properties.

Can this method be applied to other materials?

Yes, it can also be applied to metal film and nanoparticle deposition.

What skills can researchers gain from this protocol?

Researchers can become familiar with vacuum equipment and learn about film growth technology.

هنا، نقدم بروتوكولا لتنمو جسيمات نانوية لسمو والأفلام (Gd) بكو على سرتيو (001)₃ (ستو) ركائز واحدة-كريستال بتردد الراديو (RF)-اﻷخرق.

يمكن لهذه الطريقة إنشاء الجسيمات النانوية LSMO بشكل موحد على الركيزة أحادية الكريستال STO. أيضا، يمكن الحصول على الفيلم GBCO من خلال نفس الأسلوب في غرفة فراغ نفسه. والميزة الرئيسية لهذه التكنولوجيا هو أن جسيمات نانو LSMO مع حجم موحد وعالية الجودة فائقة التوصيل GBCO الفيلم يمكن أن تودع في غرفة فراغ نفسه.

يمكن أن توفر هذه الطريقة نظرة ثاقبة في مجال ترسب الفيلم ، منطقة نمو الجسيمات النانوية ، وهلم جرا. ويمكن أيضا أن تطبق على ترسب فيلم معدني، ترسب جسيمات نانوية معدنية، وهلم جرا. هذه الطريقة سوف تسمح للباحثين أن تصبح مألوفة مع معدات فراغ ومعرفة المزيد عن تكنولوجيا نمو الفيلم.

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