Xinggui Zhou scite author profile

Unlike Mn doped quantum dots (d-dots), the emission color of Cu dopant in Cu d-dots is dependent on the nature, size, and composition of host nanocrystals (NCs). The tunable Cu dopant emission has been achieved via tuning the particle size of host NCs in previous reports. In this paper, for the first time we doped Cu impurity in Zn x Cd1‑x S alloyed NCs and tuned the dopant emission in the whole visible spectrum via variation of the stoichiometric ratio of Zn/Cd precursors in the host Zn x Cd1‑x S alloyed NCs. A facile noninjection and low cost approach for the synthesis of Cu:Zn x Cd1‑x S d-dots was reported. The optical properties and structure of the obtained Cu:Zn x Cd1‑x S d-dots have been characterized by UV–vis spectroscopy, photoluminescence (PL) spectroscopy, transmission electron microscopy (TEM), and X-ray diffraction (XRD). The influences of various experimental variables, including Zn/Cd ratio, reaction temperature, and Cu dopant concentration, on the optical properties of Cu dopant emission have been systematically investigated. The as-prepared Cu:Zn x Cd1‑x S d-dots did show PL emission but with quite low quantum yield (QY) (typically below 6%). With the deposition of ZnS shell around the Cu:Zn x Cd1‑x S core NCs, the PL QY increased substantially with a maximum value of 65%. More importantly, the high PL QY can be preserved when the initial oil-soluble d-dots were transferred into aqueous media via ligand replacement by mercaptoundeconic acid. In addition, these d-dots have thermal stability up to 250 °C.

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Facile Synthesis of Highly Luminescent Mn-Doped ZnS Nanocrystals

Zhang

et al. 2011

Inorg. Chem.

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Manganese-doped zinc sulfide quantum dots (Mn:ZnS d-dots) with high optical quality, pure dopant emission of 55-65% photoluminescence quantum yield, were synthesized in octadecene media with generic starting materials, namely, zinc (manganese) carboxylic acid salts, S powder, and dodecanethiol (DDT) based on a "nucleation doping" strategy. The optical properties and structure of the obtained Mn:ZnS d-dots have been characterized by UV-vis, photoluminescence (PL) spectroscopy, transmission electron microscopy (TEM), and X-ray diffraction (XRD). The resulting nearly monodisperse d-dots were found to be of spherical shape with a zinc-blende crystal structure. The influences of various experimental variables, including the reaction temperature for the MnS core nanocluster and ZnS host material, the amount of octadecene (ODE)-S, DDT, as well as Zn/Mn ratio have been systematically investigated. The use of DDT as capping ligand ensured the reproducible access to a stable small-sized MnS core. This paves the way for reproducibly obtaining highly luminescent d-dots. Programmed overcoating temperature for growth of ZnS shell was employed to realize balanced diffusion of the Mn ions in the d-dots.

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Xinggui Zhou

A mini-review on ammonia decomposition catalysts for on-site generation of hydrogen for fuel cell applications

One-Pot Noninjection Synthesis of Cu-Doped Zn_xCd_1-xS Nanocrystals with Emission Color Tunable over Entire Visible Spectrum

Facile Synthesis of Highly Luminescent Mn-Doped ZnS Nanocrystals

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Xinggui Zhou

A mini-review on ammonia decomposition catalysts for on-site generation of hydrogen for fuel cell applications

One-Pot Noninjection Synthesis of Cu-Doped ZnxCd1-xS Nanocrystals with Emission Color Tunable over Entire Visible Spectrum

Facile Synthesis of Highly Luminescent Mn-Doped ZnS Nanocrystals

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One-Pot Noninjection Synthesis of Cu-Doped Zn_xCd_1-xS Nanocrystals with Emission Color Tunable over Entire Visible Spectrum