Ultrathin Tungsten Bronze Nanowires with Efficient Photo-to-Thermal Conversion Behavior

Simin Zhang; Yuang Shi; Ting He; Bing Ni; Chaozhong Li; Xun Wang

doi:10.1021/acs.chemmater.8b04437

Ultrathin Tungsten Bronze Nanowires with Efficient Photo-to-Thermal Conversion Behavior

Simin Zhang, Yuang Shi, Ting He, Bing Ni, Chaozhong Li, Xun Wang^*

^*Corresponding author for this work

Tsinghua University

Research output: Contribution to journal › Article › peer-review

31 Citations (Scopus)

Abstract

Researchers synthesized ultrathin Na-Cs, Na-Li and K-Cs-QTBNWs through a one-step hydrothermal method, which meant QTBNWs contained Na and Cs, Na and Li, K and Cs ions. In an experiment, Na ₂ WO ₄ ·2H ₂ O and alkali carbonate was first dissolved in deionized water that contained hydrochloric acid. Cyclohexane and oleylamine were added to the aqueous solution with stirring. Finally, the slurry was sealed in a 10 mL capacity Teflon-lined autoclave and heated at 190 °C for 60 hours. The obtained ultrathin QTBNWs with diameters of 1−2 nm and length up to microscale were flexible. When they were dispersed in cyclohexane with a high concentration, the dispersion was viscous and could form a gel when left to stand a while. The QTBNWs also exhibited potential in the photothermal conversion.

Original language	English
Pages (from-to)	8727-8731
Number of pages	5
Journal	Chemistry of Materials
Volume	30
Issue number	24
DOIs	https://doi.org/10.1021/acs.chemmater.8b04437
Publication status	Published - 26 Dec 2018
Externally published	Yes

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title = "Ultrathin Tungsten Bronze Nanowires with Efficient Photo-to-Thermal Conversion Behavior",

abstract = " Researchers synthesized ultrathin Na-Cs, Na-Li and K-Cs-QTBNWs through a one-step hydrothermal method, which meant QTBNWs contained Na and Cs, Na and Li, K and Cs ions. In an experiment, Na 2 WO 4 ·2H 2 O and alkali carbonate was first dissolved in deionized water that contained hydrochloric acid. Cyclohexane and oleylamine were added to the aqueous solution with stirring. Finally, the slurry was sealed in a 10 mL capacity Teflon-lined autoclave and heated at 190 °C for 60 hours. The obtained ultrathin QTBNWs with diameters of 1−2 nm and length up to microscale were flexible. When they were dispersed in cyclohexane with a high concentration, the dispersion was viscous and could form a gel when left to stand a while. The QTBNWs also exhibited potential in the photothermal conversion. ",

author = "Simin Zhang and Yuang Shi and Ting He and Bing Ni and Chaozhong Li and Xun Wang",

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T1 - Ultrathin Tungsten Bronze Nanowires with Efficient Photo-to-Thermal Conversion Behavior

AU - Zhang, Simin

AU - Shi, Yuang

AU - He, Ting

AU - Ni, Bing

AU - Li, Chaozhong

AU - Wang, Xun

PY - 2018/12/26

Y1 - 2018/12/26

N2 - Researchers synthesized ultrathin Na-Cs, Na-Li and K-Cs-QTBNWs through a one-step hydrothermal method, which meant QTBNWs contained Na and Cs, Na and Li, K and Cs ions. In an experiment, Na 2 WO 4 ·2H 2 O and alkali carbonate was first dissolved in deionized water that contained hydrochloric acid. Cyclohexane and oleylamine were added to the aqueous solution with stirring. Finally, the slurry was sealed in a 10 mL capacity Teflon-lined autoclave and heated at 190 °C for 60 hours. The obtained ultrathin QTBNWs with diameters of 1−2 nm and length up to microscale were flexible. When they were dispersed in cyclohexane with a high concentration, the dispersion was viscous and could form a gel when left to stand a while. The QTBNWs also exhibited potential in the photothermal conversion.

AB - Researchers synthesized ultrathin Na-Cs, Na-Li and K-Cs-QTBNWs through a one-step hydrothermal method, which meant QTBNWs contained Na and Cs, Na and Li, K and Cs ions. In an experiment, Na 2 WO 4 ·2H 2 O and alkali carbonate was first dissolved in deionized water that contained hydrochloric acid. Cyclohexane and oleylamine were added to the aqueous solution with stirring. Finally, the slurry was sealed in a 10 mL capacity Teflon-lined autoclave and heated at 190 °C for 60 hours. The obtained ultrathin QTBNWs with diameters of 1−2 nm and length up to microscale were flexible. When they were dispersed in cyclohexane with a high concentration, the dispersion was viscous and could form a gel when left to stand a while. The QTBNWs also exhibited potential in the photothermal conversion.

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Ultrathin Tungsten Bronze Nanowires with Efficient Photo-to-Thermal Conversion Behavior

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