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✦   LIBER   ✦

Gold Microplates with Well-Defined Shapes

✍ Scribed by Caixia Kan; Changshun Wang; Hongchen Li; Jingshan Qi; Jiejun Zhu; Zhaosheng Li; Daning Shi

Book ID
104593475
Publisher
John Wiley and Sons
Year
2010
Tongue
English
Weight
920 KB
Volume
6
Category
Article
ISSN
1613-6810

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✦ Synopsis

Abstract

The synthesis and growth mechanism of well‐defined nanostructures are still challenging. In this study, gold microplates with starlike, shieldlike, and other polygonal shapes are successfully achieved in high yields on the basis of the polyol process. Structural studies demonstrate that these newly shaped Au plates are single‐crystalline, several micrometers in lateral size, and tens of nanometers in thickness. It is believed that the introduction of temperature variation in the early stage of crystal growth is important for these products. The newly discovered Au microplates result from the growth of the {111} plane along the 〈211〉 and other high‐index directions, in addition to the {111}‐close‐packed 〈110〉 directions. Simulations on the multiple‐twin‐induced crystal growth and surface energy are also carried out to explain the experimental observations. This work is valuable for anisotropic growth of newly shaped noble‐metal nanostructures.

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## Abstract Quantum dots (QDs) chemically synthesized in solution at a higher temperature (85 °C) were built in situ into a variety of three‐dimensional (3D) close‐packed QD ensembles (QD solids) with well‐defined shapes: needles, disks, rods, spheres, bundles, stars, ribbons, and transition struct