As essential electrochromic(EC) materials are related to energy savings in fenestration technology,tungsten oxide(WO3) films have been intensively studied recently.In order to achieve better understanding of the m...As essential electrochromic(EC) materials are related to energy savings in fenestration technology,tungsten oxide(WO3) films have been intensively studied recently.In order to achieve better understanding of the mechanism of EC properties,and thus facilitate optimization of device performance,clarification of the correlation between cation storage and transfer properties and the coloration performance is needed.In this study,transparent polycrystalline and amorphous WO3 thin films were deposited on SnO2:F-coated glass substrates by the pulsed laser deposition technique.Investigation into optical transmittance in a wavelength range of 400-800 nm measured at a current density of 130 μA·cm-2 with the applied potential ranging from 3.2 to 2.2 V indicates that polycrystalline films have a larger optical modulation of ~ 30% at 600 nm and a larger coloration switch time of 95 s in the whole wavelength range compared with amorphous films(~ 24% and 50 s).Meanwhile,under the same conditions,polycrystalline films show a larger lithium storage capacity corresponding to a Li/W ratio of 0.5,a smaller lithium diffusion coefficient(2×10-12cm2·s-1 for Li/W=0.24) compared with the amorphous ones,which have a Li/W ratio of 0.29 and a coefficient of ~2.5×10-11cm2·s-1 as Li/W=0.24.These results demonstrate that the large optical modulation relates to the large lithium storage capacity,and the fast coloration transition is associated with fast lithium diffusion.展开更多
Layered WO 3/4,4′ BPPOBp self assemble mulitlayers (SAMs) films have been fabricated by polyelectrolytes (PEs) approach.The SAMs films with well ordered superlattice structure and d space of 0.695nm and good photochr...Layered WO 3/4,4′ BPPOBp self assemble mulitlayers (SAMs) films have been fabricated by polyelectrolytes (PEs) approach.The SAMs films with well ordered superlattice structure and d space of 0.695nm and good photochromic property have been studied by employing UV visible,small angle XRD and XPS.展开更多
Pyrochlore-type WO3 powder was synthesized via hydrothermal method using aqueous sodium tungstate solution and oxalic acid as raw materials. The as-prepared powder was made into a soliquoid, from which films were made...Pyrochlore-type WO3 powder was synthesized via hydrothermal method using aqueous sodium tungstate solution and oxalic acid as raw materials. The as-prepared powder was made into a soliquoid, from which films were made by dip coating process with indium-tin oxide (ITO). The obtained films were characterized by thermogravimetric and differential thermal analysis (TG-DTA), X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), cyclic voltammetry (CV), chronoamperometry (CA) and ultraviolet- visible (UV-Vis) absorption. Results show that the crystal of the pyrochlore-type WO3 powder is perfect. When the calcination temperature rises from room temperature to 500℃, the pyrochlore-type structure first becomes deformed, then it is destroyed and turns into amorphous phase, finally it will completely convert to WO3 with a monoclinic structure. Electrochemical and optical tests demonstrate that the film calcined at 300℃ exhibits the best electrochromic performance and has a coloration efficiency of up to 68.5 cm^2-C^-1 at 884 nm.展开更多
Ti-doped WO3 films were prepared by the mid-frequency dual-target magnetron sputtering method. The structure and electrochromic properties of the Ti-doped WO3 films were analysed by X-Ray diffraction (XRD), Raman sp...Ti-doped WO3 films were prepared by the mid-frequency dual-target magnetron sputtering method. The structure and electrochromic properties of the Ti-doped WO3 films were analysed by X-Ray diffraction (XRD), Raman spectroscopy, spectrophotometer, cyclic chronoam- perometry and atomic force microscopy (AFM). The results indicate that the erystallinity decrease after the doping of titanium, the channels for ion injection and extraction increase, the responding speed with 5.1% titanium doped becomes faster, and its circle life increases more than four times compared with the undoped WO3 film. In the coloured state, the W-O-W bonds decrease, but the W = O bonds increase. Since the W-O-W bonds break down for Li+ ions' injection and more W = O bonds form, it is more convenient to inject Li+ ions into the Ti-doped film than undoped film because more W-O-W bonds break down in the coloured state.展开更多
Poly (ethylene axide) (PEO) modified WO 3 thin films were prepared on glass substrates with special temperature.The sol gel transition proess was investigated by using DTA-TG,SEM and XRD.The electrochemical characte...Poly (ethylene axide) (PEO) modified WO 3 thin films were prepared on glass substrates with special temperature.The sol gel transition proess was investigated by using DTA-TG,SEM and XRD.The electrochemical characteristic of the films was studied by cyclic voltmmetry measurement.The results show that PEO has heavy effects on the crystallization of WO 3 during structure evolution because of the interaction between PEO and WO 3.It increases the crystallization temperature of the gels and thus improves the electrochemical properties and cyclic life of WO 3 film as electrochromic materials.展开更多
基金Project supported by the National Natural Science Foundation of China (Grant No. 10979069)the "Hundred Talent Program" of Chinese Academy of Sciences
文摘As essential electrochromic(EC) materials are related to energy savings in fenestration technology,tungsten oxide(WO3) films have been intensively studied recently.In order to achieve better understanding of the mechanism of EC properties,and thus facilitate optimization of device performance,clarification of the correlation between cation storage and transfer properties and the coloration performance is needed.In this study,transparent polycrystalline and amorphous WO3 thin films were deposited on SnO2:F-coated glass substrates by the pulsed laser deposition technique.Investigation into optical transmittance in a wavelength range of 400-800 nm measured at a current density of 130 μA·cm-2 with the applied potential ranging from 3.2 to 2.2 V indicates that polycrystalline films have a larger optical modulation of ~ 30% at 600 nm and a larger coloration switch time of 95 s in the whole wavelength range compared with amorphous films(~ 24% and 50 s).Meanwhile,under the same conditions,polycrystalline films show a larger lithium storage capacity corresponding to a Li/W ratio of 0.5,a smaller lithium diffusion coefficient(2×10-12cm2·s-1 for Li/W=0.24) compared with the amorphous ones,which have a Li/W ratio of 0.29 and a coefficient of ~2.5×10-11cm2·s-1 as Li/W=0.24.These results demonstrate that the large optical modulation relates to the large lithium storage capacity,and the fast coloration transition is associated with fast lithium diffusion.
文摘Layered WO 3/4,4′ BPPOBp self assemble mulitlayers (SAMs) films have been fabricated by polyelectrolytes (PEs) approach.The SAMs films with well ordered superlattice structure and d space of 0.695nm and good photochromic property have been studied by employing UV visible,small angle XRD and XPS.
基金financially supported by the National Natural Science Foundation of China (No. 51274243)the Project of Innovation-Driven Plan in Central South University, China (No. 2015CX001)
文摘Pyrochlore-type WO3 powder was synthesized via hydrothermal method using aqueous sodium tungstate solution and oxalic acid as raw materials. The as-prepared powder was made into a soliquoid, from which films were made by dip coating process with indium-tin oxide (ITO). The obtained films were characterized by thermogravimetric and differential thermal analysis (TG-DTA), X-ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), cyclic voltammetry (CV), chronoamperometry (CA) and ultraviolet- visible (UV-Vis) absorption. Results show that the crystal of the pyrochlore-type WO3 powder is perfect. When the calcination temperature rises from room temperature to 500℃, the pyrochlore-type structure first becomes deformed, then it is destroyed and turns into amorphous phase, finally it will completely convert to WO3 with a monoclinic structure. Electrochemical and optical tests demonstrate that the film calcined at 300℃ exhibits the best electrochromic performance and has a coloration efficiency of up to 68.5 cm^2-C^-1 at 884 nm.
文摘Ti-doped WO3 films were prepared by the mid-frequency dual-target magnetron sputtering method. The structure and electrochromic properties of the Ti-doped WO3 films were analysed by X-Ray diffraction (XRD), Raman spectroscopy, spectrophotometer, cyclic chronoam- perometry and atomic force microscopy (AFM). The results indicate that the erystallinity decrease after the doping of titanium, the channels for ion injection and extraction increase, the responding speed with 5.1% titanium doped becomes faster, and its circle life increases more than four times compared with the undoped WO3 film. In the coloured state, the W-O-W bonds decrease, but the W = O bonds increase. Since the W-O-W bonds break down for Li+ ions' injection and more W = O bonds form, it is more convenient to inject Li+ ions into the Ti-doped film than undoped film because more W-O-W bonds break down in the coloured state.
文摘Poly (ethylene axide) (PEO) modified WO 3 thin films were prepared on glass substrates with special temperature.The sol gel transition proess was investigated by using DTA-TG,SEM and XRD.The electrochemical characteristic of the films was studied by cyclic voltmmetry measurement.The results show that PEO has heavy effects on the crystallization of WO 3 during structure evolution because of the interaction between PEO and WO 3.It increases the crystallization temperature of the gels and thus improves the electrochemical properties and cyclic life of WO 3 film as electrochromic materials.
