CONTROLLED GROWTH OF TETRAPOD-BRANCHED INORGANIC NANOCRYSTALS PDF

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Nanoscale materials are currently being exploited as active components in a wide range of technological applications in various fields, such as composite materials, chemical sensing, biomedicine, optoelectronics and nanoelectronics. Colloidal nanocrystals are promising candidates in these fields, due to their ease of fabrication and processibility. Even more applications and new functional materials might emerge if nanocrystals could be synthesized in shapes of higher complexity than the ones produced by current methods spheres, rods, discs.

Here, we demonstrate that polytypism, or the existence of two or more crystal structures in different domains of the same crystal, coupled with the manipulation of surface energy at the nanoscale, can be exploited to produce branched inorganic nanostructures controllably.

For the case of CdTe, we designed a high yield, reproducible synthesis of soluble, tetrapod-shaped nanocrystals through which we can independently control the width and length of the four arms. This site needs JavaScript to work properly. Please enable it to take advantage of the complete set of features! Clipboard, Search History, and several other advanced features are temporarily unavailable. Search: Search. Advanced Clipboard. Create file Cancel. Email citation To:.

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Full-text links Cite Favorites. Abstract Nanoscale materials are currently being exploited as active components in a wide range of technological applications in various fields, such as composite materials, chemical sensing, biomedicine, optoelectronics and nanoelectronics. Similar articles One-pot synthesis of CdTe nanocrystals and shape control of luminescent CdTe-cystine nanocomposites.

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Stirner T, et al. J Nanosci Nanotechnol. PMID: Shape control of II-VI semiconductor nanomaterials. Kumar S, Nann T. Kumar S, et al. PMID: Review. Luminescent CdTe and CdSe semiconductor nanocrystals: preparation, optical properties and applications. Wang Y. Show more similar articles See all similar articles. Yin J, et al. Adv Sci Weinh. Surface-kinetics mediated mesoporous multipods for enhanced bacterial adhesion and inhibition. Zhao T, et al. Nat Commun. Spitaleri L, et al. ACS Omega. Anni M.

Nanomaterials Basel. Huang X, et al. ACS Cent Sci. Epub May 2. Show more "Cited by" articles See all "Cited by" articles. Publication types Research Support, U. Gov't, Non-P. Molecular Conformation Actions. Substances Cadmium Compounds Actions. Inorganic Chemicals Actions. Tellurium Actions. Full-text links [x] Nature Publishing Group.

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Controlled growth of tetrapod-branched inorganic nanocrystals.

Controlled growth of tetrapod-branched inorganic nanocrystals Published on Jun 1, in Nature Materials Liberato Manna 74 Estimated H-index: Estimated H-index: Find in Lib. Add to Collection.

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Controlled Growth of Tetrapod-Branched Inorganic Nanocrystals

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