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Main Authors: Duong, Nghiep Khoan, Multunas, Christian D., Whoriskey, Thomas, Kiani, Mehrdad T., Saha, Shanta R., Sam, Quynh P., Wang, Han, Kushwaha, Satya, Paglione, Johnpierre, Sundararaman, Ravishankar, Cha, Judy J.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2503.22540
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author Duong, Nghiep Khoan
Multunas, Christian D.
Whoriskey, Thomas
Kiani, Mehrdad T.
Saha, Shanta R.
Sam, Quynh P.
Wang, Han
Kushwaha, Satya
Paglione, Johnpierre
Sundararaman, Ravishankar
Cha, Judy J.
author_facet Duong, Nghiep Khoan
Multunas, Christian D.
Whoriskey, Thomas
Kiani, Mehrdad T.
Saha, Shanta R.
Sam, Quynh P.
Wang, Han
Kushwaha, Satya
Paglione, Johnpierre
Sundararaman, Ravishankar
Cha, Judy J.
contents Intermetallic compounds containing transition metals and group III-V metals tend to possess strong correlations and high catalytic activities, both of which can be enhanced via reduced dimensionality. Nanostructuring is an effective approach to explore this possibility, yet the synthesis of nanostructured intermetallics is challenging due to vast differences in melting points and vapor pressures of the constituent elements. In this work, we demonstrate that this challenge can be overcome with thermomechanical nanomolding (TMNM), exemplified by the synthesis of intermetallic CoIn3 and RhIn3 nanowires. We show that TMNM successfully extrudes single-crystalline nanowires of these compounds down to the 20 nm diameter range, and the nanowires remain metallic with resistivity values higher than calculated bulk resistivity. We discuss possible effects of surface roughness scattering, vacancy-induced scattering, and surface oxidation, on the measured resistivities of the nanowires. For CoIn3 nanowires, the measured resistivity values are the first reported values for this compound.
format Preprint
id arxiv_https___arxiv_org_abs_2503_22540
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Nanomolding single-crystalline CoIn3 and RhIn3 nanowires
Duong, Nghiep Khoan
Multunas, Christian D.
Whoriskey, Thomas
Kiani, Mehrdad T.
Saha, Shanta R.
Sam, Quynh P.
Wang, Han
Kushwaha, Satya
Paglione, Johnpierre
Sundararaman, Ravishankar
Cha, Judy J.
Materials Science
Mesoscale and Nanoscale Physics
Intermetallic compounds containing transition metals and group III-V metals tend to possess strong correlations and high catalytic activities, both of which can be enhanced via reduced dimensionality. Nanostructuring is an effective approach to explore this possibility, yet the synthesis of nanostructured intermetallics is challenging due to vast differences in melting points and vapor pressures of the constituent elements. In this work, we demonstrate that this challenge can be overcome with thermomechanical nanomolding (TMNM), exemplified by the synthesis of intermetallic CoIn3 and RhIn3 nanowires. We show that TMNM successfully extrudes single-crystalline nanowires of these compounds down to the 20 nm diameter range, and the nanowires remain metallic with resistivity values higher than calculated bulk resistivity. We discuss possible effects of surface roughness scattering, vacancy-induced scattering, and surface oxidation, on the measured resistivities of the nanowires. For CoIn3 nanowires, the measured resistivity values are the first reported values for this compound.
title Nanomolding single-crystalline CoIn3 and RhIn3 nanowires
topic Materials Science
Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2503.22540