Self-Assembly of Nanostructured, Complex, Multi-cation Films via Spontaneous Phase Separation and Strain-driven Ordering

Goyal, Amit; Wee, Sung Hun; Stocks, George Malcolm; Zuev, Yuri L; More, Karren Leslie; Meng, Jianyong; Zhong, Jianxin

Title: Self-Assembly of Nanostructured, Complex, Multi-cation Films via Spontaneous Phase Separation and Strain-driven Ordering

Journal Article · Tue Jan 01 00:00:00 EST 2013 · Science

OSTI ID:1093034

Goyal, Amit ^[1]; Wee, Sung Hun ^[1]; Stocks, George Malcolm ^[1]; Zuev, Yuri L ^[1]; More, Karren Leslie ^[1]; Meng, Jianyong ^[1]; Zhong, Jianxin ^[1]

ORNL

Spontaneous self-assembly of a multi-cation nanophase in another multi-cation matrix phase is a promising bottom-up approach to fabricate novel, nanocomposite structures for a range of applications. In an effort to understand the mechanisms for such self-assembly, we report on complimentary experimental and theoretical studies to first understand and then control or guide the self-assembly of insulating BaZrO3 (BZO) nanodots within REBa2Cu3O7- (RE=rare earth elements including Y, REBCO) superconducting films. It was determined that the strain field developed around BZO nanodots embedded in REBCO matrix is a key driving force dictating the self-assembly of BZO nanodots along REBCO c-axis. The size selection and spatial ordering of BZO self-assembly were simulated using thermodynamic and kinetic models. The BZO self-assembly was controllable by tuning the interphase strain field. REBCO superconducting films with BZO defects arrays self-assembled to align in both vertical (REBCO c-axis) and horizontal (REBCO ab-planes) directions, resulted in the maximized pinning and Jc performance for all field angles with smaller angular Jc anisotropy. The work has broad implications for fabrication of controlled self-assembled nanostructures for a range of applications via strain-tuning.

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Research Organization:: Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States). Shared Research Equipment Collaborative Research Center

Sponsoring Organization:: OE USDOE - Office of Electric Transmission and Distribution

DOE Contract Number:: DE-AC05-00OR22725

OSTI ID:: 1093034

Journal Information:: Science, Vol. 23, Issue 15

Country of Publication:: United States

Language:: English

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Nanomaterials

Title: Self-Assembly of Nanostructured, Complex, Multi-cation Films via Spontaneous Phase Separation and Strain-driven Ordering

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