Engineering the architectural diversity of heterogeneous metallic nanocrystals

Yu, Yue; Zhang, Qingbo; Xie, Jianping; Lee, Jim Yang

doi:10.1038/ncomms2474

Cited by 104 publications

(139 citation statements)

References 37 publications

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“…The nucleation model explains how the phase difference forms; still, it is unclear how the difference in the chemical conversion processes accelerates which of the kinetic or thermodynamic control nucleation. As the future works, although the importance of kinetics in nanocrystal growth has been discussed for the size distribution and shape control46474849, the simulation and correlating experiments to understand the factors for kinetic and thermodynamic control nucleation will be requirement to control the phase formation of nanocrystals, because of the complexity. The nucleation reactions are a complex system to give different crystal phases based on difference in the first reaction setup through multiple interactions40; for example, in a chemical system to synthesize nano-size TiO 2 , the nucleation correlates with strengthen in dehydration defined by the reaction condition and with multiple interactions between TiO 6 octahedral units, ligands of Ti precursors, anions, solvents, and/or additives.…”

Section: Discussionmentioning

confidence: 99%

Metastability of anatase: size dependent and irreversible anatase-rutile phase transition in atomic-level precise titania

Satoh

Nakashima

Yamamoto

2013

Sci Rep

109

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Since crystal phase dominantly affects the properties of nanocrystals, phase control is important for the applications. To demonstrate the size dependence in anatase-rutile phase transition of titania, we used quantum-size titania prepared from the restricted number of titanium ions within dendrimer templates for size precision purposes and optical wave guide spectroscopy for the detection. Contrary to some theoretical calculations, the observed irreversibility in the transition indicates the metastablity of anatase; thermodynamics cannot explain the formation of metastable states. Therefore, we take into account the kinetic control polymerization of TiO6 octahedral units to explain how the crystal phase of the crystal-nucleus-size titania is dependent on which coordination sites, cis- or trans-, react in the TiO6 octahedra, suggesting possibilities for the synthetic phase control of nanocrystals. In short, the dendrimer templates give access to crystal nucleation chemistry. The paper will also contribute to the creation of artificial metastable nanostructures with atomic-level precision.

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Section: Discussionmentioning

confidence: 99%

Metastability of anatase: size dependent and irreversible anatase-rutile phase transition in atomic-level precise titania

Satoh

Nakashima

Yamamoto

2013

Sci Rep

109

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“…29,46,48,50,54,59,61,69,70,74,76,107 Some formulations contained more Ti, 50,59,69,70 whereas others contained more Zr. 48,60,74,76,127 Even when the ratio of Ti and Zr compounds in the bath was reported, it is difficult to find a relationship between their concentration in the bath and their content in the coating. When both compounds were present in the bath, both were also usually found in the coating 46,48,59,69,70 but not necessarily in the same ratio as in the bath.…”

Section: Characteristics Of Conversion Coatingsmentioning

confidence: 99%

“…81 The majority of Zr/Ti based conversion coatings are in the category of thin coatings, between 10 nm and 50-80 nm. 6,[32][33][34]44,49,52,76,77,88,90,91,97,102,105,106,108,112 Coatings with thickness between 100 nm and 600 nm were reported as well, 48,81,94,127 and even in the micrometer thickness range from 1.0 μm up to 6 μm. 30,37,43,59,61,80,119,127 Thickness is related to other parameters such as substrate, pH, time of immersion and stirring, as discussed in Conversion bath parameters and Effect of substrate on coating formation sections.…”

Section: C137mentioning

confidence: 99%

Review—Conversion Coatings Based on Zirconium and/or Titanium

Milošev

Frankel

2018

J. Electrochem. Soc.

155

113

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There is a growing interest in conversion coatings based on titanium and/or zirconium as the result of the health and environmental issues associated with legacy chromate and phosphate conversion coatings. Any alternative technology should be environmentally friendly and cost effective, and also able to achieve comparable corrosion resistance and paint adhesion for ferrous and non-ferrous substrates. Conversion coatings based on titanium or zirconium seem to fulfill many of these requirements and thus offer a great potential for further applications. This literature review summarizes the scientific results in this rapidly growing area of research. Following the description of composition of conversion bath and deposition mechanism, the effects of process parameters for conversion baths such as pH, temperature, immersion time and agitation are presented together with coating characteristics. The effects of the type of substrate and substrate pre-treatment are explored for the most-studied substrates: Al alloys, zinc-coated steels and steels. Properties such as composition, morphology and thickness are summarized. The corrosion performance of the conversion coatings is discussed, as well as adhesion of organic coatings and delamination mechanism for a full coating system including substrate/coating/top-coat. Metals used in the construction of products and facilities in most applications, including industrial, infrastructure, transportation, construction, consumer goods, etc., are primarily selected from three groups: steels, zinc-coated (galvanized) steels, and aluminum alloys (AA).1 All of these materials require protection to prevent environmental degradation, and the most common approach to protection against corrosion is a multilayer coating system. Metal components are treated by a series of processes to create this coating system: cleaning, surface pre-treatment, and application of organic coating layers including primer and topcoat. Surface pre-treatments include anodizing (for aluminum alloys) and conversion coatings, which are the focus of this review. Conversion coatings are formed by immersion of a component in a chemical bath and reaction of the metal substrate with the components in the bath to form a layer that coats the surface. These layers provide some corrosion protection by acting as a barrier to the environment or releasing corrosion-inhibiting species. However, their primary role is to improve the adhesion of subsequently applied paint layers.The most important conversion coatings used for corrosion protection and adhesion promotion of ferrous and non-ferrous metal substrates are chromate conversion coatings (CCCs) and phosphate coatings. CCCs are highly corrosion protective. They consist of a backbone of chromium oxide/hydroxide with Cr in the 3+ oxidation state and also contain compounds with Cr in the 6+ oxidation state. 2-5The Cr(VI) provides the characteristic of self-healing, which is the ability to reform a protective coating after it has been breached by a mechanical or chemical proces...

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“…However, the current generation of nanoscale materials, such as nanowires and nanospheres, are not complex enough to serve as building blocks for the design of well-ordered and multifunctional systems analogous to these found in nature9. It is therefore necessary to devise engineering techniques1011 by which one can exercise a greater level of control over material properties, shapes, morphologies and assembly mechanisms that may facilitate the design of various devices with novel optical, mechanical, thermal and electrical properties1213141516.…”

mentioning

confidence: 99%

Tailoring self-organized nanostructured morphologies in kilometer-long polymer fiber

Khudiyev

Tobail

Bayındır

2014

Sci Rep

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While nanowires and nanospheres have been utilized in the design of a diverse array of nanoscale devices, recent schemes frequently require nanoscale architectures of higher complexity. However, conventional techniques are largely unsatisfactory for the production of more intricate nanoscale shapes and patterns, and even successful fabrication methods are incompatible with large-scale production efforts. Novel top-down, iterative size reduction (ISR)-mediated approaches have recently been shown to be promising for the production of high-throughput cylindrical and spherical nanostructures, though more complex architectures have yet to be created using this process. Here we report the presence of a hitherto-undescribed transitory region between nanowire and nanosphere transformation, where a diverse array of complex quasi one-dimensional nanostructures is produced by Rayleigh-Plateau instability-mediated deformation during the progress of a combined ISR/thermal instability technique. Temperature-based tailoring of architecturally diverse, indefinitely long, globally parallel, complex nanostructure arrays with high uniformity and low size variation facilitates the development of in-fiber or free-standing nanodevices with significant advantages over on-chip devices.

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Engineering the architectural diversity of heterogeneous metallic nanocrystals

Cited by 104 publications

References 37 publications

Metastability of anatase: size dependent and irreversible anatase-rutile phase transition in atomic-level precise titania

Metastability of anatase: size dependent and irreversible anatase-rutile phase transition in atomic-level precise titania

Review—Conversion Coatings Based on Zirconium and/or Titanium

Tailoring self-organized nanostructured morphologies in kilometer-long polymer fiber

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