Your search keyword '"Parsamehr, Hadi"' showing total 4 results

1. Formation of a single quasicrystal upon collision of multiple grains.

Author

Han, Insung, Wang, Kelly L., Cadotte, Andrew T., Xi, Zhucong, Parsamehr, Hadi, Xiao, Xianghui, Glotzer, Sharon C., and Shahani, Ashwin J.

Subjects

THIN film deposition, CRYSTAL growth, QUASICRYSTALS, SINGLE crystals, MOLECULAR dynamics

Abstract

Quasicrystals exhibit long-range order but lack translational symmetry. When grown as single crystals, they possess distinctive and unusual properties owing to the absence of grain boundaries. Unfortunately, conventional methods such as bulk crystal growth or thin film deposition only allow us to synthesize either polycrystalline quasicrystals or quasicrystals that are at most a few centimeters in size. Here, we reveal through real-time and 3D imaging the formation of a single decagonal quasicrystal arising from a hard collision between multiple growing quasicrystals in an Al-Co-Ni liquid. Through corresponding molecular dynamics simulations, we examine the underlying kinetics of quasicrystal coalescence and investigate the effects of initial misorientation between the growing quasicrystalline grains on the formation of grain boundaries. At small misorientation, coalescence occurs following rigid rotation that is facilitated by phasons. Our joint experimental-computational discovery paves the way toward fabrication of single, large-scale quasicrystals for novel applications. Quasicrystals exhibit long-range order without periodicity. The authors report an approach for quasicrystal fabrication and show through in situ imaging and corresponding simulations the formation of a single decagonal quasicrystal arising from coalescence of multiple quasicrystals in a liquid. [ABSTRACT FROM AUTHOR]

Published

2021

2. Direct observation of growth and stability of Al-Cu-Fe quasicrystal thin films.

Author

Parsamehr, Hadi, Yang, Chun-Liang, Liu, Wei-Ting, Chen, Shi-Wei, Chang, Shou-Yi, Chen, Lih-Juann, Tsai, An Pang, and Lai, Chih-Huang

Subjects

*THIN films, *TRANSMISSION electron microscopy, *SYNCHROTRONS, *QUASICRYSTALS, *SURFACE properties, *HEAT treatment

Abstract

Al-Cu-Fe based quasicrystal thin films exhibit unique surface and mechanical properties. To better understand the formation of the quasicrystal thin films, we observe direct growth of quasicrystals, prepared in a multilayer Al-Cu-Fe thin films with subsequent heat treatment, by in-situ synchrotron x-ray diffraction and in-situ transmission electron microscopy during heating and cooling. Using these two methods, we show that the ternary phase is more thermodynamically stable compared to the binary phases at temperature higher than 470 °C during the heating process, and quasicrystal formation occurs during the cooling process, specifically at 660 °C, after the sample has reached a liquid state. To distinguish quasicrystal from approximant crystals in the obtained thin film samples, we use high resolution x-ray diffraction to analyze the sample at room temperature. We reveal that the peak broadening increases monotonically along the twofold, threefold, and fivefold high-symmetry directions with the physical scattering vector but does not have systematic dependence on the phason momentum, which suggests that the thin film sample is indeed a quasicrystal instead of approximant crystals and it is almost free of phason strain. Our study provides a complete understanding of the growth mechanism for thin film Al-Cu-Fe quasicrystals, which is of particular importance for developing versatile applications of quasicrystal thin films. Image 1 [ABSTRACT FROM AUTHOR]

Published

2019

3. Mechanical and surface properties of Aluminum-Copper-Iron quasicrystal thin films.

Author

Parsamehr, Hadi, Chang, Shou-Yi, and Lai, Chih-Huang

Subjects

*ALUMINUM-copper alloys, *QUASICRYSTALS, *CRYSTAL surfaces, *ANNEALING of crystals, *NANOINDENTATION tests

Abstract

We show quasicrystal formation by annealing multilayers of Al, Cu and Fe. The mechanical and surface properties of quasicrystals are affected by the parameters of annealing process. Here, multilayer Al-Cu-Fe thin film samples with different compositions were sputtered on Si/SiO 2 substrates and subjected to a two-step annealing process for different durations (5, 10 and 15 h). X-ray diffraction analyses indicated that the 15-h annealed sample had a sharper quasicrystal peak, which was more stable than any other phases. From the XRD data, the amount of each phase was calculated; the sample with longer annealing duration revealed a high amount of ψ-phase (84.3% crystallinity of quasicrystal) with a small amount of cubic Al 50 (CuFe) 50 phase. Nanoindentation tests and contact angle measurements showed that this sample also had the greatest hardness (∼11 GPa) and the highest contact angle (127°), respectively. [ABSTRACT FROM AUTHOR]

Published

2018

4. Dynamic Observation of Dendritic Quasicrystal Growth upon Laser-Induced Solid-State Transformation.

Author

Insung Han, McKeown, Joseph T., Ling Tang, Cai-Zhuang Wang, Parsamehr, Hadi, Zhucong Xi, Ying-Rui Lu, Kramer, Matthew J., and Shahani, Ashwin J.

Subjects

*SOLID-state lasers, *PHASES of matter, *TRANSMISSION electron microscopy, *MOLECULAR dynamics, *QUASICRYSTALS

Abstract

We report the laser-induced solid-state transformation between a periodic "approximant" and quasicrystal in the Al-Cr system during rapid quenching. Dynamic transmission electron microscopy allows us to capture in situ the dendritic growth of the metastable quasicrystals. The formation of dendrites during solid-state transformation is a rare phenomenon, which we attribute to the structural similarity between the two intermetallics. Through ab initio molecular dynamics simulations, we identify the dominant structural motif to be a 13-atom icosahedral cluster transcending the phases of matter. [ABSTRACT FROM AUTHOR]

Published

2020