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Acta Photonica Sinica
Vol. 48, Issue 12, 1216001 (2019)

Effect of Different Oxygen Content of Tantalum Oxide on Electrochromic Properties of Tungsten Oxide

Hui-dong YANG^1,1,2,2, Jin-hui XIA^1,1,*, Si-ran PENG^1,1, Jing-yan ZHANG^1,1..., Fei-xiong BAO^1,1 and Ya-qing LIU^1,1|Show fewer author(s)

Author Affiliations

¹School of Information Science and Technology, Jinan University, Guangzhou 510632, China

²Jinan University Shaoguan Research Institute, Shaoguan, Guangdong 512027, China

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DOI: 10.3788/gzxb20194812.1216001 Cite this Article

Hui-dong YANG, Jin-hui XIA, Si-ran PENG, Jing-yan ZHANG, Fei-xiong BAO, Ya-qing LIU. Effect of Different Oxygen Content of Tantalum Oxide on Electrochromic Properties of Tungsten Oxide[J]. Acta Photonica Sinica, 2019, 48(12): 1216001 Copy Citation Text

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References

[1] S K DEB. Opportunies and challenges in science and technology of WO₃ for electrochmic and related applications. Solar Energy Materials and Solar Cells, 92, 245-258(2008).

[3] J S E M SVENSSON, C G GRANQVRST. Electrochromic coatings for smart windows:Crystalline and amorphous WO₃ films. Thin Solid Films, 126, 31-36(1985).

[4] J S E M SVENSSON, C G GRANQVRST. Electrochromic coatings for "smart windows". Solar Energy Materials, 12, 391-402(1985).

[5] C G GRANQVIST. Electrochromics for smart windows:oxide-based thin films and devices. Thin Solid Films, 564, 1-38(2014).

[6] M BUYAN, P A BRUHWILER, A AZENS. Facial warming and tinted helmet visors. International Journal of Industrial Ergonomics, 36, 11-16(2006).

[7] S E P ANDERSSON, I ENGQUIST, X CRISPIN. Electrochromic display cells driven by an electrolyte-gated organic field-effect transistor. Organic Electronics, 10, 1195-1199(2019).

[8] H SHIN, Y KIM, T BHUYANA. Color combination of conductive polymers for black electrochromism. ACS Applied Materials & Interfaces, 4, 185-191(2012).

[9] M WANG, Y THIMONT, L PRESMEANS. The effect of the oxygen ratio control of DC reactive magnetron sputtering on as-deposited non stoichiometric NiO thin films. Applied Surface Science, 419, 795-801(2017).

[10] M MIHELCIC, A SURCA VUK, I JERMAN. Comparison of electrochromic properties of Ni_1-xO in lithium and lithium-free aprotic electrolytes:From Ni_1-xO pigment coatings to flexible electrochromic devices. Solar Energy Materials and Solar Cells, 120, 116-130(2014).

[11] N SBAR, M BADDING, R BUDZIAK. Progress toward durable, cost effective electrochromic window glazings. Solar Energy Materials and Solar Cells, 56, 321-341(1999).

[12] G F CAI, X L WANG, D ZHOU. Hierarchical structure Ti-doped WO₃ film with improved electrochromism in visible-infrared region. RSC Advances, 3, 6896-6905(2013).

[15] S PAPAEFTHIMIOU, E SYRRAKOU, P YIANOULIS. An alternative approach for the energy and environmental rating of advanced glazing:Anelectrochromic window case study. Energ and Buildings, 41, 17-26(2009).

[17] K TAJIMA, H HOTTA, Y YAMADA. Electrochromic switchable mirror glass fabricated using adhesive electrolyte layer. Applied Physis Letters, 101, 251907(2012).

[18] K AHN, Y NAH, Y SUNG. All-solid-state electrochromic device composed of WO₃ and Ni(OH)² with a Ta₂O₅ protective layer. Applied Physics Letters, 81, 3930(2002).

[19] Q R LIU, G B DONG, Q Q CHEN. Charge-transfer kinetics and cyclic properties of inorganic all-solid-state electrochromic device with remarkably improved optical memory. Solar Energy Materials and Solar Cells, 174, 545-553(2018).

[20] H AHNA, Y KIMA, H SHIMA. Improvement of the electrochemical properties of SnO₂ electrodes for lithium rechargeable battery using protective Ta₂O₅ thin films. Solid State Ionics, 176, 699-702(2005).

[21] X Q CHE, Z H WU, G B DONG. Properties of all-thin film glass/ITO/WO₃:H/Ta₂O₅/NiOx/ITO electrochromic devices prepared by magnetron sputtering. Thin Solid Films, 662, 6-12(2018).

[23] Y C HE, F ZHANG, Q Q ZHANG. High capacity and performance lithium based electrochromic device via amorphous tantalum oxide protective layer. Electrochimica Acta, 280, 163-170(2018).

[24] N A OBRIEN, J GORDON, H MATHEW. Electrochromic coatings-appli-cations and manufacturing issues. Thin Solid Films, 345, 312-318(1999).

[25] J NAGAI, G D MCMEEKING, Y SAITOH. Durability of electrochromic glazing. Solar Energy Materials and Solar Cells, 56, 309-319(1999).

[26] R T WEN, C G GRANQVIST, G A NILLASSON. Anodic electrochromic nickel oxide thin films:decay of charge density upon extensive electrochemical cycling. Chem Electro Chem, 3, 266-275(2016).

[27] G A NIKLASSON, L BERGGREN, A L LARSSON. Electrochromic tungsten oxide:the role of defects. Solar Energy Materials and Solar Cells, 84, 315-328(2004).

[28] R T WEN, G A NIKLASSON, C G GRANQVIST. Eliminating electrochromic degradation in amorphous TiO₂ through Li-ion detrapping. Applied Materials & Interfaces, 8, 5777-5782(2016).

[29] S V GREEN, C G GRANQVIST, G A NIKLASSON. Structure and optical properties of electrochromic tungsten-containing nickel oxide films. Solar Energy Materials and Solar Cells, 126, 248-259(2014).

[30] Q J HUANG, G B DONG, Y XIAO. Electrochemical studies of silicon nitride electron blocking layer for all-solid-state inorganic electrochromic device. Electrochimica Acta, 252, 331-337(2017).

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Hui-dong YANG, Jin-hui XIA, Si-ran PENG, Jing-yan ZHANG, Fei-xiong BAO, Ya-qing LIU. Effect of Different Oxygen Content of Tantalum Oxide on Electrochromic Properties of Tungsten Oxide[J]. Acta Photonica Sinica, 2019, 48(12): 1216001

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