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Characterization of Hexagonal Tungsten Bronze CsxWO3 Nanoparticles and Their Thin Films Prepared by Chemical Coprecipitation and Wet-Coating Methods

대한화학회지 2018년 62권 2호 p.118 ~ 123
 ( Kwak Jun-Young ) - Adchro Inc. Research Laboratory

 ( Hwang Tai-Kyung ) - Pukyong National University Department of Chemistry
 ( Jung Young-Hee ) - Adchro Inc. Research Laboratory
 ( Park Ju-Yun ) - Pukyong National University Department of Chemistry
 ( Kang Yong-Cheol ) - Pukyong National University Department of Chemistry
 ( Kim Yeong-Il ) - Pukyong National University Department of Chemistry


The hexagonal tungsten bronze CsxWO3 nanoparticle was synthesized by a chemical coprecipitation method of ammonium tungstate and Cs2CO3 in acidic condition. This synthetic method for cesium tungsten bronze is reported for the first time as far as we know. The synthesized CsxWO3 as precipitated showed a weak crystallinity of hexagonal unit cell with a crystallite size of about 4 nm without annealing. When the synthesized CsxWO3 was annealed in N2 atmosphere, the crystallinity and crystallite size systematically increased maintaining the typical hexagonal tungsten bronze structure as the annealing temperature increased. The analyzed Cs content in the bronze was about 0.3 vs W, which is very close to the theoretical maximum value, 1/3 in cesium tungsten bronze. According to XPS analysis, the reduced tungsten ions existed as both the forms of W5+ and W4+ and the contents systematically increased as the annealing temperature increased up to 800 °C. The CsxWO3 thin films on PET substrate were also prepared by a wet-coating method using the ball-milled solution of the annealed CsxWO3 nanoparticles at various temperatures. The near-infrared shielding property of these thin films increased systematically as the annealing temperature increased up to 800 °C as expected with the increased contents of reduced tungsten ions.


Hexagonal tungsten bronze; CsxWO3; Coprecipitation; Near infrared shielding
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