Facile synthesis of homogeneous CsxWO3 nanorods with excellent low-emissivity and NIR shielding property by a water controlled-release process

“…9(a)). Both the ternary and quaternary tungsten bronze nanoparticles have a narrow absorption band near 300 nm, which is attributed to the interband transition caused by the excitation of an electron from the oxygen 2p to the tungsten 5d orbital [25,26]. Cesium tungsten bronze shows a wide absorption band that starts at 830 nm and has a maximum absorbance at 1602 nm.…”

Preparation of quaternary tungsten bronze nanoparticles by a thermal decomposition of ammonium metatungstate with oleylamine

“…9(a)). Both the ternary and quaternary tungsten bronze nanoparticles have a narrow absorption band near 300 nm, which is attributed to the interband transition caused by the excitation of an electron from the oxygen 2p to the tungsten 5d orbital [25,26]. Cesium tungsten bronze shows a wide absorption band that starts at 830 nm and has a maximum absorbance at 1602 nm.…”

Preparation of quaternary tungsten bronze nanoparticles by a thermal decomposition of ammonium metatungstate with oleylamine

“…The hexagonal F-doped cesium tungsten bronze (Cs x WO 3 À x F x ) structure is similar with that of pure Cs x WO 3 cystals [24]. Fig.…”

Synthesis and characterization of F-doped Cs0.33WO3−F particles with improved near infrared shielding ability

“…In recent years, there are many reports about M x WO 3 particles [8][9][10]. In particular, the solvothermal synthesis and applications of Cs x WO 3 nanoparticles have been attracting more and more attention [11][12][13][14][15]. In our previous research, it was found that the glass coated with Cs x WO 3 nanoparticles had excellent transparency and NIR shielding ability [14][15][16][17].…”

Fabrication of Cs0.32WO3/SiO2 aerogel multilayer composite coating for thermal insulation applications