The self-assembly synthesis of tungsten oxide quantum dots with enhanced optical properties

Songling Wang; Stephen V. Kershaw; Guisheng Li; Michael K. H. Leung

doi:10.1039/c5tc00278h

The self-assembly synthesis of tungsten oxide quantum dots with enhanced optical properties

Songling Wang, Stephen V. Kershaw, Guisheng Li^*, Michael K. H. Leung^*

^*Corresponding author for this work

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

79 Citations (Scopus)

Abstract

In the present paper, a one-pot microwave-assisted approach was explored for self-assembly fabrication of ultrafine tungsten oxide (WO₃) quantum dots (QDs). The as-obtained WO₃ QDs were ultrafine, with a quantum size ranging from 2 to 3 nm. Such ultrafine WO₃ QDs exhibited significant thermal/photonic stabilities, which are favorable for blue photoluminescence emission and photochromism properties. The WO₃ QDs could be well maintained in ethylene glycol at 120 °C for 4 days, without the occurrence of aggregation phenomena. It took about 10 s for the colorless aqueous suspension of WO₃ QDs to turn blue under solar-light irradiation. A negligible decrease rate (2.7%) was observed for the relative luminescence emission intensity of WO₃ QDs after being irradiated by UV light (365 nm) for 24 hours. Such greatly enhanced photochromism was attributed to both the exposed reactive sites and surface oxygen vacancies of ultrafine WO₃ QDs. This journal is

Original language	English
Pages (from-to)	3280-3285
Journal	Journal of Materials Chemistry C
Volume	3
Issue number	14
DOIs	https://doi.org/10.1039/c5tc00278h
Publication status	Published - 14 Apr 2015

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title = "The self-assembly synthesis of tungsten oxide quantum dots with enhanced optical properties",

abstract = "In the present paper, a one-pot microwave-assisted approach was explored for self-assembly fabrication of ultrafine tungsten oxide (WO3) quantum dots (QDs). The as-obtained WO3 QDs were ultrafine, with a quantum size ranging from 2 to 3 nm. Such ultrafine WO3 QDs exhibited significant thermal/photonic stabilities, which are favorable for blue photoluminescence emission and photochromism properties. The WO3 QDs could be well maintained in ethylene glycol at 120 °C for 4 days, without the occurrence of aggregation phenomena. It took about 10 s for the colorless aqueous suspension of WO3 QDs to turn blue under solar-light irradiation. A negligible decrease rate (2.7%) was observed for the relative luminescence emission intensity of WO3 QDs after being irradiated by UV light (365 nm) for 24 hours. Such greatly enhanced photochromism was attributed to both the exposed reactive sites and surface oxygen vacancies of ultrafine WO3 QDs. This journal is",

author = "Songling Wang and Kershaw, {Stephen V.} and Guisheng Li and Leung, {Michael K. H.}",

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T1 - The self-assembly synthesis of tungsten oxide quantum dots with enhanced optical properties

AU - Wang, Songling

AU - Kershaw, Stephen V.

AU - Li, Guisheng

AU - Leung, Michael K. H.

PY - 2015/4/14

Y1 - 2015/4/14

N2 - In the present paper, a one-pot microwave-assisted approach was explored for self-assembly fabrication of ultrafine tungsten oxide (WO3) quantum dots (QDs). The as-obtained WO3 QDs were ultrafine, with a quantum size ranging from 2 to 3 nm. Such ultrafine WO3 QDs exhibited significant thermal/photonic stabilities, which are favorable for blue photoluminescence emission and photochromism properties. The WO3 QDs could be well maintained in ethylene glycol at 120 °C for 4 days, without the occurrence of aggregation phenomena. It took about 10 s for the colorless aqueous suspension of WO3 QDs to turn blue under solar-light irradiation. A negligible decrease rate (2.7%) was observed for the relative luminescence emission intensity of WO3 QDs after being irradiated by UV light (365 nm) for 24 hours. Such greatly enhanced photochromism was attributed to both the exposed reactive sites and surface oxygen vacancies of ultrafine WO3 QDs. This journal is

AB - In the present paper, a one-pot microwave-assisted approach was explored for self-assembly fabrication of ultrafine tungsten oxide (WO3) quantum dots (QDs). The as-obtained WO3 QDs were ultrafine, with a quantum size ranging from 2 to 3 nm. Such ultrafine WO3 QDs exhibited significant thermal/photonic stabilities, which are favorable for blue photoluminescence emission and photochromism properties. The WO3 QDs could be well maintained in ethylene glycol at 120 °C for 4 days, without the occurrence of aggregation phenomena. It took about 10 s for the colorless aqueous suspension of WO3 QDs to turn blue under solar-light irradiation. A negligible decrease rate (2.7%) was observed for the relative luminescence emission intensity of WO3 QDs after being irradiated by UV light (365 nm) for 24 hours. Such greatly enhanced photochromism was attributed to both the exposed reactive sites and surface oxygen vacancies of ultrafine WO3 QDs. This journal is

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U2 - 10.1039/c5tc00278h

DO - 10.1039/c5tc00278h

M3 - RGC 21 - Publication in refereed journal

SN - 2050-7526

VL - 3

SP - 3280

EP - 3285

JO - Journal of Materials Chemistry C

JF - Journal of Materials Chemistry C

IS - 14

ER -

The self-assembly synthesis of tungsten oxide quantum dots with enhanced optical properties

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