Size‐Dependent Phase Transformation of Noble Metal Nanomaterials

In this review, the recent progress of crystal phase-controlled synthesis, properties and applications of noble metal nanomaterials is systematically introduced.

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Size-dependent Phase Transformation and Fracture of ZnO Nanowires

Procedia IUTAM ◽

10.1016/j.piutam.2017.03.041 ◽

2017 ◽

Vol 21 ◽

pp. 86-93

Author(s):

Jianying He ◽

Jianyang Wu ◽

Shijo Nagao ◽

Lijie Qiao ◽

Zhiliang Zhang

Keyword(s):

Phase Transformation ◽

Zno Nanowires ◽

Size Dependent

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Controlled synthesis of noble metal nanomaterials: motivation, principles, and opportunities in nanocatalysis

Anais da Academia Brasileira de Ciências ◽

10.1590/0001-3765201820170561 ◽

2018 ◽

Vol 90 (1 suppl 1) ◽

pp. 719-744 ◽

Cited By ~ 9

Author(s):

RAFAEL S. GEONMONOND ◽

ANDERSON G.M. DA SILVA ◽

PEDRO H.C. CAMARGO

Keyword(s):

Noble Metal ◽

Controlled Synthesis ◽

Metal Nanomaterials

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Size-dependent solution-mediated phase transformation of piroxicam monohydrate particles

CrystEngComm ◽

10.1039/d1ce00237f ◽

2021 ◽

Vol 23 (16) ◽

pp. 2928-2932

Author(s):

Changlin Yao ◽

Lei Wang ◽

Xinyuan Wang ◽

Xutang Tao

Keyword(s):

Particle Size ◽

Phase Transformation ◽

Size Dependent

The transformation from the piroxicam monohydrate to form I or form II could be achieved precisely by adjusting the particle size itself in the 99% acetone-1% H2O solvent at 31 °C.

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Size and shape-controlled synthesis of Ru nanocrystals

Physical Sciences Reviews ◽

10.1515/psr-2017-0080 ◽

2018 ◽

Vol 3 (12) ◽

Author(s):

Linlin Xu ◽

Jun Yang

Keyword(s):

Noble Metal ◽

Chemical Properties ◽

Controlled Synthesis ◽

One Dimensional ◽

Size And Shape ◽

The Past ◽

Metal Nanomaterials ◽

Shape Controlled ◽

Synthetic Approaches ◽

Coherent Picture

Abstract Mastery over the size/shape of nanocrystals (NCs) enables control of their properties and enhancement of their usefulness for a given application. Within the past decades, the development of wet-chemistry methods leads to the blossom of research in noble metal nanomaterials with tunable sizes and shapes. We herein would prefer to devote this chapter to introduce the solution-based methods for size and shape-controlled synthesis of ruthenium (Ru) NCs, which can be summarized into five categories: (i) Synthesis of spherical Ru NCs; (ii) synthesis of one-dimensional (1D) Ru NCs, e.g. wires and rods; (iii) synthesis of two-dimensional (2D) Ru NCs, e.g. nanoplates; (iv) synthesis of Ru NCs with hollow interiors and (v) synthesis of Ru NCs with other morphologies, e.g. chains, dendrites and branches. We aim at highlighting the synthetic approaches and growth mechanisms of these types of Ru NCs. We also introduce the detailed characterization tools for analysis of Ru NCs with different sizes/shapes. With respect to the creation of great opportunities and tremendous challenges due to the accumulation in noble metal nanomaterials, we briefly make some perspectives for the future development of Ru NCs so as to provide the readers a systematic and coherent picture of this promising field. We hope this reviewing effort can provide for technical bases for effectively designing and producing Ru NCs with enhanced physical/chemical properties. Graphical Abstract: The solution-based methods for size and shape-controlled synthesis of ruthenium nanocrystals as well as the mechanisms behind them are extensively reviewed.

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Approaches to the Synthesis and Characterization of Spherical and Anisotropic Noble Metal Nanomaterials

Nanotechnologies for the Life Sciences ◽

10.1002/9783527610419.ntls0133 ◽

2010 ◽

Author(s):

Harshala J. Parab ◽

Hao Ming Chen ◽

Nitin C. Bagkar ◽

Ru-Shi Liu ◽

Yeu-Kuang Hwu ◽

...

Keyword(s):

Noble Metal ◽

Synthesis And Characterization ◽

Metal Nanomaterials

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Size-Dependent Phase Transformation during Gas Atomization Process of Cu–Sn Alloy Powders

Materials ◽

10.3390/ma12020245 ◽

2019 ◽

Vol 12 (2) ◽

pp. 245 ◽

Cited By ~ 3

Author(s):

Hao Pan ◽

Hongjun Ji ◽

Meng Liang ◽

Junbo Zhou ◽

Mingyu Li

Keyword(s):

Phase Transformation ◽

Nucleation Theory ◽

Gas Atomization ◽

Atomization Process ◽

Cu6sn5 Phase ◽

Lotus Leaf ◽

Threshold Size ◽

Size Dependent ◽

Droplet Sizes ◽

Transient Nucleation

For binary element atomization, it is essential to investigate the phase transformation from liquid to solid as a functions of the droplet sizes, as well as the reaction competitiveness, during gas atomizing solidification of their nuclei. In the present work, a series of phase transformations of undercooled Cu (60.9 wt.%)/Sn droplets were analyzed when atomized by pressure gas. The results indicated that the microstructures of the obtained powders and their morphologies were highly relevant to the droplet size. According to the phase characteristics analyzed by the microstructural observations in combination with the transient nucleation theory, powders with sizes from 10 to 100 μm were divided into three categories, exhibiting lotus-leaf, island, and stripe morphologies. The competitive formation of Cu6Sn5 or Cu3Sn was also controlled by the droplet sizes, and a diameter of approximately 45 μm was identified as the threshold size. After heat treatment at 300 °C for 4 h, the powders consisted of a single η’ Cu6Sn5 phase. The obtained Cu6Sn5 phase powders can be used in the field of high-temperature applications as intermetallic balls for integrated chip interconnects.

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