In-Situ Preparation of CdTe Quantum Dots Capped with a β-Cyclodextrin-Epichlorohydrin Polymer: Polymer Influence on the Nanocrystal’s Optical Properties

β-Cyclodextrin (βCD), the less water soluble of the cyclodextrins, has been used as a capping agent in the preparation of semiconductor nanocrystals or quantum dots (QDs). Nevertheless, no reports have been found in the use of the highly water-soluble polymer of this, prepared by the crosslinking of...

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Autores principales: Martin-Trasanco, Rudy, Esparza-Ponce, Hilda E., Ortiz, Pedro D., Oyarzun, Diego P., Zuñiga, Cesar, Montero-Cabrera, Maria E., Tundidor-Camba, Alain, Pizarro, Guadalupe del C., Arratia-Pérez, Ramiro
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2018
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Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6267504/
https://www.ncbi.nlm.nih.gov/pubmed/30453604
http://dx.doi.org/10.3390/nano8110948
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author Martin-Trasanco, Rudy
Esparza-Ponce, Hilda E.
Ortiz, Pedro D.
Oyarzun, Diego P.
Zuñiga, Cesar
Montero-Cabrera, Maria E.
Tundidor-Camba, Alain
Pizarro, Guadalupe del C.
Arratia-Pérez, Ramiro
author_facet Martin-Trasanco, Rudy
Esparza-Ponce, Hilda E.
Ortiz, Pedro D.
Oyarzun, Diego P.
Zuñiga, Cesar
Montero-Cabrera, Maria E.
Tundidor-Camba, Alain
Pizarro, Guadalupe del C.
Arratia-Pérez, Ramiro
author_sort Martin-Trasanco, Rudy
collection PubMed
description β-Cyclodextrin (βCD), the less water soluble of the cyclodextrins, has been used as a capping agent in the preparation of semiconductor nanocrystals or quantum dots (QDs). Nevertheless, no reports have been found in the use of the highly water-soluble polymer of this, prepared by the crosslinking of the βCD units with epichlorohydrin in basic medium (βCDP). This polymer, besides to overcome the low solubility of the βCD, increases the inclusion constant of the guest; two parameters that deserve its use as capping agent, instead of the native cyclodextrin. In the present manuscript, we afforded the in-situ aqueous preparation of cadmium telluride (CdTe) QDs capped with βCDP. The polymer influence on the photoluminescent properties of the nanocrystals was analyzed. The βCDP controls the nanocrystals growth during the Oswald ripening stage. Consequently, the CdTe capped βCDP QDs showed lower Stokes-shift values, higher photoluminescent efficiency, and narrower size distribution than for nanocrystals obtained in the absence of polymer. Transmission electron microscopy (TEM) micrographs and energy dispersive X-ray spectroscopy (EDS) analysis revealed the composition and crystallinity of the CdTe QDs. This βCDP capped CdTe QDs is a potential scaffold for the supramolecular modification of QDs surface.
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spelling pubmed-62675042018-12-06 In-Situ Preparation of CdTe Quantum Dots Capped with a β-Cyclodextrin-Epichlorohydrin Polymer: Polymer Influence on the Nanocrystal’s Optical Properties Martin-Trasanco, Rudy Esparza-Ponce, Hilda E. Ortiz, Pedro D. Oyarzun, Diego P. Zuñiga, Cesar Montero-Cabrera, Maria E. Tundidor-Camba, Alain Pizarro, Guadalupe del C. Arratia-Pérez, Ramiro Nanomaterials (Basel) Article β-Cyclodextrin (βCD), the less water soluble of the cyclodextrins, has been used as a capping agent in the preparation of semiconductor nanocrystals or quantum dots (QDs). Nevertheless, no reports have been found in the use of the highly water-soluble polymer of this, prepared by the crosslinking of the βCD units with epichlorohydrin in basic medium (βCDP). This polymer, besides to overcome the low solubility of the βCD, increases the inclusion constant of the guest; two parameters that deserve its use as capping agent, instead of the native cyclodextrin. In the present manuscript, we afforded the in-situ aqueous preparation of cadmium telluride (CdTe) QDs capped with βCDP. The polymer influence on the photoluminescent properties of the nanocrystals was analyzed. The βCDP controls the nanocrystals growth during the Oswald ripening stage. Consequently, the CdTe capped βCDP QDs showed lower Stokes-shift values, higher photoluminescent efficiency, and narrower size distribution than for nanocrystals obtained in the absence of polymer. Transmission electron microscopy (TEM) micrographs and energy dispersive X-ray spectroscopy (EDS) analysis revealed the composition and crystallinity of the CdTe QDs. This βCDP capped CdTe QDs is a potential scaffold for the supramolecular modification of QDs surface. MDPI 2018-11-17 /pmc/articles/PMC6267504/ /pubmed/30453604 http://dx.doi.org/10.3390/nano8110948 Text en © 2018 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Martin-Trasanco, Rudy
Esparza-Ponce, Hilda E.
Ortiz, Pedro D.
Oyarzun, Diego P.
Zuñiga, Cesar
Montero-Cabrera, Maria E.
Tundidor-Camba, Alain
Pizarro, Guadalupe del C.
Arratia-Pérez, Ramiro
In-Situ Preparation of CdTe Quantum Dots Capped with a β-Cyclodextrin-Epichlorohydrin Polymer: Polymer Influence on the Nanocrystal’s Optical Properties
title In-Situ Preparation of CdTe Quantum Dots Capped with a β-Cyclodextrin-Epichlorohydrin Polymer: Polymer Influence on the Nanocrystal’s Optical Properties
title_full In-Situ Preparation of CdTe Quantum Dots Capped with a β-Cyclodextrin-Epichlorohydrin Polymer: Polymer Influence on the Nanocrystal’s Optical Properties
title_fullStr In-Situ Preparation of CdTe Quantum Dots Capped with a β-Cyclodextrin-Epichlorohydrin Polymer: Polymer Influence on the Nanocrystal’s Optical Properties
title_full_unstemmed In-Situ Preparation of CdTe Quantum Dots Capped with a β-Cyclodextrin-Epichlorohydrin Polymer: Polymer Influence on the Nanocrystal’s Optical Properties
title_short In-Situ Preparation of CdTe Quantum Dots Capped with a β-Cyclodextrin-Epichlorohydrin Polymer: Polymer Influence on the Nanocrystal’s Optical Properties
title_sort in-situ preparation of cdte quantum dots capped with a β-cyclodextrin-epichlorohydrin polymer: polymer influence on the nanocrystal’s optical properties
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6267504/
https://www.ncbi.nlm.nih.gov/pubmed/30453604
http://dx.doi.org/10.3390/nano8110948
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