Mixed Nanostructured Ti‐W Oxides Films for Efficient Electrochromic Windows

Định, Nguyễn Năng; Ninh, Dang Hai; Thảo, Trần Phương; Truong, Vo‐Van

doi:10.1155/2012/781236

Cited by 16 publications

(22 citation statements)

References 17 publications

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“…In particular, the work by Yoshimura et al [26] pointed at the importance of conducting the sputtering at unusually high pressures (that are known to promote nanocrystallinity [107], analogously to the case of gas evaporation [108]). Furthermore, our observed coloration efficiencies are consistent with those in some studies on films prepared by sol-gel deposition [38], chemical bath deposition [41,43], and doctor blade technique [54,55]. Our earlier work on sputter deposition in the presence of CF 4 in order to make titanium oxyfluoride films is yet the one that produced the highest coloration efficiency (cf.…”

Section: Resultssupporting

confidence: 90%

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Electrochromism of DC magnetron sputtered TiO2 thin films: Role of deposition parameters

Sorar

Pehlivan

Niklasson

et al. 2013

Solar Energy Materials and Solar Cells

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We performed a comprehensive study on the electrochromism in TiO 2 thin films made by reactive DC magnetron sputtering and elucidated the roles of sputter gas pressure p, O 2 /Ar gas ratio γ and substrate temperature τ s . Good mid-luminous optical modulation-taken to be ~50 % in ~200-nm-thick films-was obtained under charge exchange in a Li + electrolyte for p > 15 mTorr and τ s < 100 °C, whereas γ was less important. The deposition rate dropped for increasing p, and hence p ≈ 15 mTorr was optimal. These films were X-ray amorphous and contained some water. The coloration efficiency η was ~25 cm 2 /C, which exceeds data on η in most prior studies on sputter deposited TiO 2 and verifies that such films can display the same values of η as those of TiO 2 films made by several chemical techniques.

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Section: Resultssupporting

confidence: 90%

“…Thus a doctor blade technique has been employed recently by Dinh et al [54,55] and has given TiO 2 films with η ≈ 34 cm 2 /C.…”

Section: Literature Reviewmentioning

confidence: 99%

Electrochromism of DC magnetron sputtered TiO2 thin films: Role of deposition parameters

Sorar

Pehlivan

Niklasson

et al. 2013

Solar Energy Materials and Solar Cells

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“…Other, supporting studies on the electrochromism in W-Ti oxide have been reported for films prepared by sputtering [16][17][18][19], chemical technology involving spraying [20][21][22] dipping [16,23] or spinning [24][25][26], electrodeposition [27,28] and anodization [29]. The enhanced stability has been investigated in depth in recent work on W-Ti oxide films made by sputtering [30,31] and chemical techniques [26].…”

Section: Introductionmentioning

confidence: 91%

Electrochromism in sputter-deposited W–Ti oxide films: Durability enhancement due to Ti

Arvizu

Triana

Stefanov

et al. 2014

Solar Energy Materials and Solar Cells

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Electrochromism in sputter-deposited W-Ti oxide films: Durability enhancement due to Ti. Solar Energy Materials and Solar AbstractThin films of W-Ti oxide were prepared by reactive DC magnetron sputtering and were characterized by Rutherford backscattering spectrometry, X-ray diffraction, scanning electron microscopy and atomic force microscopy. The electrochromic properties were studied by cyclic voltammetry in an electrolyte of lithium perchlorate in propylene carbonate and by optical transmittance measurements. The addition of Ti significantly promoted the amorphous nature of the films and stabilized their electrochemical cycling performance and dynamic range for electrochromism.

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confidence: 99%

“…Since these drawbacks have proven difficult to overcome in a pure WO 3 system there have been a number of attempts to solve them by doping or mixing with other electrochromic materials, usually another transition metal oxide. [9][10][11][12][13][14][15][16] In 2005, Patil et al 17 investigated the effect of TiO 2 additions on the electrochromic properties of tungsten trioxide films prepared through spray pyrolysis, finding improved electrochromic reversibility, but not any real enhancement of the coloration efficiency. 17 One possible way to improve electrochromic efficiency is to tailor the morphology of the oxide to have spacious channels that can aid charge/ion injection into and transport within the film.…”

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Honey-Comb Structured WO₃/TiO₂Thin Films with Improved Electrochromic Properties

Gui

Blackwood

2015

J. Electrochem. Soc.

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The electrochromic properties of 90:10 WO 3 /TiO 2 thin films produced by anodizing co-sputtered W/Ti films in a fluorinated ethylene glycol solution are investigated in relation to corresponding pure WO 3 films. SEM images revealed that the TiO 2 content resulted in a more open honey-comb structure that increased the charge accommodation ability by 250%. The superior charge storage property of the WO 3 /TiO 2 meant that it had a better light modulation range, with transmittance of <1% at 800 nm in the colored state. The electrochromic kinetic processes associated with coloration and bleaching are also much faster in the presence of TiO 2 , with data generated by electrochemical impedance spectroscopy revealing that this is due to a reduction in the resistance to the insertion of Li + ions. Materials characterization techniques revealed that the WO 3 /TiO 2 composite maintains the monoclinic structure of the WO 3 and that the Ti atoms are substituted into the WO 3 matrix, rather than forming discrete 8 This especially important in the tropics where air-conditioning usage is high, in part due to architects making extensive use of aesthetically pleasing glass.However, unless the WO 3 is made via expensive high vacuum techniques, some of its properties, such electrochromic reversibility, stability or optical modulation, fall short of those required for a practical smart window. Since these drawbacks have proven difficult to overcome in a pure WO 3 system there have been a number of attempts to solve them by doping or mixing with other electrochromic materials, usually another transition metal oxide. [9][10][11][12][13][14][15][16] In 2005, Patil et al.17 investigated the effect of TiO 2 additions on the electrochromic properties of tungsten trioxide films prepared through spray pyrolysis, finding improved electrochromic reversibility, but not any real enhancement of the coloration efficiency. 17One possible way to improve electrochromic efficiency is to tailor the morphology of the oxide to have spacious channels that can aid charge/ion injection into and transport within the film.18-20 One approach to achieve this is by electrochemical anodization. In 2009 Zheng et al., 7 successfully formed a macro-porous WO 3 thin film by anodizing pure tungsten, which had been deposited onto conductive fluorine doped tin oxide (FTO) glass by a magnetron sputtering method, in NH 4 F aqueous electrolyte. This success provides and broadens the application of electrochromic WO 3 thin films on "Smart Windows" where the transparent substrate is essential. However, these authors only focused on the fabrication of WO 3 thin film with macro-porous structure on FTO glass, giving neither details nor further exploration of the electrochromic properties.Besides efforts have been directed at improving electrochromic properties by producing mixed transition metal oxide films, most notably WO 3 /TiO 2 , by techniques such as electron beam deposition, sputtering, hydrothermal and the sol-gel method. 17,[21][22][23] Although the synthesized film...

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Mixed Nanostructured Ti‐W Oxides Films for Efficient Electrochromic Windows

Cited by 16 publications

References 17 publications

Electrochromism of DC magnetron sputtered TiO2 thin films: Role of deposition parameters

Electrochromism of DC magnetron sputtered TiO2 thin films: Role of deposition parameters

Electrochromism in sputter-deposited W–Ti oxide films: Durability enhancement due to Ti

Honey-Comb Structured WO₃/TiO₂Thin Films with Improved Electrochromic Properties

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Mixed Nanostructured Ti‐W Oxides Films for Efficient Electrochromic Windows

Cited by 16 publications

References 17 publications

Electrochromism of DC magnetron sputtered TiO2 thin films: Role of deposition parameters

Electrochromism of DC magnetron sputtered TiO2 thin films: Role of deposition parameters

Electrochromism in sputter-deposited W–Ti oxide films: Durability enhancement due to Ti

Honey-Comb Structured WO3/TiO2Thin Films with Improved Electrochromic Properties

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Honey-Comb Structured WO₃/TiO₂Thin Films with Improved Electrochromic Properties