Multidimensional thermally-induced transformation of nest-structured\n complex Au-Fe nanoalloys towards equilibrium Article Swipe

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Jacob Johny , Oleg Prymak , Marius Kamp , F. Calvo , Se‐Ho Kim , Anna Tymoczko , Ayman A. El‐Zoka , Christoph Rehbock , Ulrich Schürmann , Baptiste Gault , Lorenz Kienle , Stephan Barcikowski ·

YOU? · · 2021 · Open Access · · DOI: https://doi.org/10.48550/arxiv.2104.13491

Bimetallic nanoparticles are often superior candidates for a wide range of\ntechnological and biomedical applications, thanks to their enhanced catalytic,\noptical, and magnetic properties, which are often better than their\nmonometallic counterparts. Most of their properties strongly depend on their\nchemical composition, crystallographic structure, and phase distribution.\nHowever, little is known of how their crystal structure, on the nanoscale,\ntransforms over time at elevated temperatures, even though this knowledge is\nhighly relevant in case nanoparticles are used in, e.g., high-temperature\ncatalysis. Au-Fe is a promising bimetallic system where the low-cost and\nmagnetic Fe is combined with catalytically active and plasmonic Au. Here, we\nreport on the in situ temporal evolution of the crystalline ordering in Au-Fe\nnanoparticles, obtained from a modern laser ablation in liquids synthesis. Our\nin-depth analysis, complemented by dedicated atomistic simulations, includes a\ndetailed structural characterization by X-ray diffraction and transmission\nelectron microscopy as well as atom probe tomography to reveal elemental\ndistributions down to a single atom resolution. We show that the Au-Fe\nnanoparticles initially exhibit highly complex internal nested nanostructures\nwith a wide range of compositions, phase distributions, and size-depended\nmicrostrains. The elevated temperature induces a diffusion-controlled\nrecrystallization and phase merging, resulting in the formation of a single\nface-centered-cubic ultrastructure in contact with a body-centered cubic phase,\nwhich demonstrates the metastability of these structures. Uncovering these\nunique nanostructures with nested features could be highly attractive from a\nfundamental viewpoint as they could give further insights into the nanoparticle\nformation mechanism under non-equilibrium conditions.\n

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Transmission Electron Microscopy

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Materials science Nanoparticle Bimetallic strip Nanostructure Metastability Atom probe Phase (matter) Transmission electron microscopy Nanotechnology Nanoscopic scale Atom (system on chip) Chemical physics Crystallography Chemistry Metal Metallurgy Embedded system Computer science Organic chemistry

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Type: preprint
Language: en
Landing Page: http://arxiv.org/abs/2104.13491
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DOI: https://doi.org/10.48550/arxiv.2104.13491

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Title: Multidimensional thermally-induced transformation of nest-structured\n complex Au-Fe nanoalloys towards equilibrium

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Language: en

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Publication year: 2021

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Publication date: 2021-04-27

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Authors: Jacob Johny, Oleg Prymak, Marius Kamp, F. Calvo, Se‐Ho Kim, Anna Tymoczko, Ayman A. El‐Zoka, Christoph Rehbock, Ulrich Schürmann, Baptiste Gault, Lorenz Kienle, Stephan Barcikowski

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Landing page: https://arxiv.org/abs/2104.13491

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Concepts: Materials science, Nanoparticle, Bimetallic strip, Nanostructure, Metastability, Atom probe, Phase (matter), Transmission electron microscopy, Nanotechnology, Nanoscopic scale, Atom (system on chip), Chemical physics, Crystallography, Chemistry, Metal, Metallurgy, Embedded system, Computer science, Organic chemistry

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abstract_inverted_index.combined	85
abstract_inverted_index.elevated	57, 169
abstract_inverted_index.enhanced	17
abstract_inverted_index.features	203
abstract_inverted_index.includes	122
abstract_inverted_index.insights	216
abstract_inverted_index.internal	156
abstract_inverted_index.low-cost	81
abstract_inverted_index.magnetic	20
abstract_inverted_index.merging,	176
abstract_inverted_index.obtained	106
abstract_inverted_index.ordering	103
abstract_inverted_index.relevant	64
abstract_inverted_index.strongly	33
abstract_inverted_index.superior	4
abstract_inverted_index.temporal	98
abstract_inverted_index.analysis,	116
abstract_inverted_index.atomistic	120
abstract_inverted_index.dedicated	119
abstract_inverted_index.evolution	99
abstract_inverted_index.formation	180
abstract_inverted_index.initially	152
abstract_inverted_index.knowledge	62
abstract_inverted_index.mechanism	220
abstract_inverted_index.plasmonic	90
abstract_inverted_index.promising	76
abstract_inverted_index.resulting	177
abstract_inverted_index.viewpoint	210
abstract_inverted_index.Bimetallic	0
abstract_inverted_index.Uncovering	198
abstract_inverted_index.attractive	207
abstract_inverted_index.bimetallic	77
abstract_inverted_index.biomedical	12
abstract_inverted_index.candidates	5
abstract_inverted_index.is\nhighly	63
abstract_inverted_index.microscopy	131
abstract_inverted_index.properties	32
abstract_inverted_index.structural	124
abstract_inverted_index.structure,	39, 50
abstract_inverted_index.synthesis.	114
abstract_inverted_index.tomography	137
abstract_inverted_index.we\nreport	93
abstract_inverted_index.a\ndetailed	123
abstract_inverted_index.crystalline	102
abstract_inverted_index.diffraction	128
abstract_inverted_index.properties,	21
abstract_inverted_index.resolution.	146
abstract_inverted_index.structures.	197
abstract_inverted_index.temperature	170
abstract_inverted_index.complemented	117
abstract_inverted_index.composition,	37
abstract_inverted_index.demonstrates	192
abstract_inverted_index.simulations,	121
abstract_inverted_index.Our\nin-depth	115
abstract_inverted_index.and\nmagnetic	82
abstract_inverted_index.applications,	13
abstract_inverted_index.body-centered	189
abstract_inverted_index.catalytically	87
abstract_inverted_index.compositions,	163
abstract_inverted_index.conditions.\n	223
abstract_inverted_index.counterparts.	28
abstract_inverted_index.metastability	194
abstract_inverted_index.nanoparticles	1, 67
abstract_inverted_index.phase,\nwhich	191
abstract_inverted_index.temperatures,	58
abstract_inverted_index.these\nunique	199
abstract_inverted_index.a\nfundamental	209
abstract_inverted_index.distributions,	165
abstract_inverted_index.nanostructures	200
abstract_inverted_index.ultrastructure	184
abstract_inverted_index.non-equilibrium	222
abstract_inverted_index.their\nchemical	36
abstract_inverted_index.characterization	125
abstract_inverted_index.crystallographic	38
abstract_inverted_index.of\ntechnological	10
abstract_inverted_index.their\nmonometallic	27
abstract_inverted_index.Au-Fe\nnanoparticles	151
abstract_inverted_index.catalytic,\noptical,	18
abstract_inverted_index.nanostructures\nwith	158
abstract_inverted_index.Au-Fe\nnanoparticles,	105
abstract_inverted_index.nanoscale,\ntransforms	53
abstract_inverted_index.transmission\nelectron	130
abstract_inverted_index.distribution.\nHowever,	42
abstract_inverted_index.nanoparticle\nformation	219
abstract_inverted_index.elemental\ndistributions	140
abstract_inverted_index.single\nface-centered-cubic	183
abstract_inverted_index.high-temperature\ncatalysis.	72
abstract_inverted_index.size-depended\nmicrostrains.	167
abstract_inverted_index.diffusion-controlled\nrecrystallization	173
cited_by_percentile_year
countries_distinct_count	0
institutions_distinct_count	12
citation_normalized_percentile.value	0.21218599
citation_normalized_percentile.is_in_top_1_percent	False
citation_normalized_percentile.is_in_top_10_percent	False