Methods Figure 1 provides a schematic representation of the manufacturing process and illustrates the composition of the film layer. Ammonium tungstate ((NH4)10H2(W2O7)6, 99.99% purity) and cesium carbonate (Cs2CO3, 99.9% purity trace metal basis) were used as precursors. These materials were each dissolved in distilled water and stirred for 1 h at room temperature, and two solutions check details were well mixed in a ceramic crucible. This mixture was dried at 180°C for 8 h in a heating chamber (model
ON-O2GW, JEIO TECH, Seoul, South Korea). The prepared powder was heated at 550°C for 1 h under a flowing H2/N2 gas mixture (H2/N2 = 90/10 cc/min) and annealed at 800°C for 1 h under a N2 gas flow (N2 = 100 cc/min) in a vacuum furnace (model DVF-1600s, DAE HEUNG SCIENCE, Incheon, South Korea). Dark blue tungsten oxide powders were obtained and analyzed via X-ray diffraction (XRD) (model x18xhf22, JEOL, Akishima, Tokyo, Japan) at 1°/min between 0° and 90°. The powder was mixed with a dispersing agent (BYK2001) in ethanol, and a turbo-mill (model 8000D, SPEX, Metuchen, NJ, USA) with an iron ball (20 mm) and zirconia bead (0.3 mm, ZrO2 94.5%, Y2O3 5.1%) was used for top-down stepwise grinding for 4 h. Figure 1 Schematic fabrication of NIR absorption films containing Cs 0.33 WO 3 nanoparticles. The composite layer-coated film was prepared
using a mixture CT99021 ic50 of dispersed sol and acrylic UV-curing binder. A rotating mixer (model MS 3basic, IKA, Nara, Japan) was used, and the polyethylene terephthalate (PET, film thickness = 186 μm) substrate was coated using
the bar casting method. The coated film was dried at 80°C for 1 min in a heating chamber and illuminated using UV-curing equipment (model LZ-U1O1DCH, LICHTZEN, Gyeonggi-do, South Korea) at an intensity of 800 W/cm for 20 s. To produce the double layer-coated film, dispersed Thymidylate synthase Cs0.33WO3 sol was first coated on PET substrate, and the UV binder was coated using the bar casting method. The thickness was measured using the cross-sectional length of each film via scanning electron microscopy (SEM, JSM-6700 F, JEOL). The optical properties were examined using a UV/VIS/near-infrared (NIR) spectrophotometer (model Cary 5000, Varian Australia Pty. Ltd., Mulgrave, Australia) in the range of 300 ~ 3,300 nm. The nanodistance of the internanoparticles was measured by a transmission electron microscope (TEM, JEM-2100 F, JEOL Ltd.). Results and discussion The solar energy spectrum in all regions was based on ASTM G173-03 as indicated in Figure 2. The solar shielding characteristics were analyzed using the solar transmittance selectivity (STS) based on the transmittance deviation (T Vis (%), T NIR (%)) in the visible and near-infrared regions.
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