Effect of dispersant agents on morphology and optical-electrical properties of nano indium tin oxide ink-jet ink

Journal of the European Ceramic Society

Volumn 34, Issue 12, 2014, Pages 2959-2966

  Soleimani Gorgani, Atasheh ^a   Bakhshandeh, Ehsan ^a   Najafi, Farhood ^a  

^a INSTITUTE FOR COLOR SCIENCE AND TECHNOLOGY   (Iran)

Author keywords

Conductive; Dispersion; Ink jet printing; Nano ITO

Indexed keywords

DISPERSION (WAVES); INK; INK JET PRINTERS; MORPHOLOGY; PRINTING; SUBSTRATES;

CONDUCTIVE; DISPERSANT AGENT; ELECTRICAL AND OPTICAL PROPERTIES; GLASS SUBSTRATES; HEAT TREATMENT TEMPERATURE; INDIUM TIN OXIDE; NANO-ITO; OPTICAL AND ELECTRICAL PROPERTIES;

ELECTRIC PROPERTIES;

EID: 84901593813     PISSN: 09552219     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.jeurceramsoc.2014.04.030     Document Type: Article

References (34)

1. Crawford G.P. Flexible flat panel displays 2005, Wiley, New York.
2. Edwards P.P., Porch A., Jones M.O., Morgan D.V., Perks R.M. Basic materials physics of transparent conducting oxides. Dalton Trans 2004, 19:2995-3002.
3. Kang B., Tan L.W., Silva S.R. Fluoropolymer indium-tin-oxide buffer layers for improved power conversion in organic photovoltaics. Appl Phys Lett 2008, 93:133302-133303.
4. Xue J., Uchida S., Rand B.P., Forrest S.R. 4.2% efficient organic photovoltaic cells with low series resistances. Appl Phys Lett 2004, 84(16):3013-3015.
5. Krasnov A.N. High-contrast organic light-emitting diodes on flexible substrates. Appl Phys Lett 2002, 80:3853-3855.
6. Kim K.Y., Park S.B. Preparation and property control of nano-sized indium tin oxide particle. Mater Chem Phys 2004, 86:210-221.
7. Lia S., Qiaoa X., Chena J., Wanga H., Jia F., Qiu X. Effects of temperature on indium tin oxide particles synthesized by co-precipitation. J Crystal Growth 2006, 289(1):151-156.
8. Balamurugan B., Kruis F.E., Shivaprasad S.M., Dimitrieva O., Zähres H. Size-induced stability and structural transition in monodispersed indium nanoparticles. Appl Phys Lett 2005, 86:083102.
9. Pan Z.W., Dai Z.R., Wang Z.L. Nanobelts of semiconducting oxides. Science 2001, 291:1947-1949.
10. 3 nanowires. Appl Phys A 2002, 75(6):687-689.
11. Limmer J., Takahashi K., Cao G. Electrochromic and transparent conducting oxide nanorods. Nanomater Opt Appl 2003, 5224:25-32.
12. Li X., Xu X., Yin X., Li C., Zhang J. A sol-gel method to synthesize indium tin oxide nanoparticles. Particuology 2011, 9:471-474.
13. Guisheng Z., Huarui X., Chuntu L. Monodispersed tin doped indium oxide nanometer powders prepared by hydrothermal method. J Inorg Mater 2005, 20(2):479-483.
14. Xu H.R., Zhou H.Y., Zhu G.S., Chen J.Z., Liao C.T. Synthesis of tin-doped indium oxide nanoparticles by an ion-exchange and hydrothermal process. Mater Lett 2006, 60(7):983-985.
15. Sujatha Devi P., Chatterjee M., Ganguli D. Indium tin oxide nano-particles through an emulsion technique. Mater Lett 2002, 55:205-210.
16. Jin Y., Yi Q., Ren Y., Wang X., Ye Z. Molecular mechanism of monodisperse colloidal tin-doped indium oxide nanocrystals by a hot-injection approach. Nanoscale Res Lett 2013, 8:153-163.
17. Maruyama T., Fukui K. Indium tin oxide thin films prepared by chemical vapour deposition. Thin Solid Films 1991, 203(2):297-302.
18. Chiou B.S., Hsieh S.T., Wu W.F. Deposition of indium tin oxide films on acrylic substrates by radiofrequency magnetron sputtering. J Am Ceram Soc 1994, 77(7):1740-1744.
19. Haines W.G., Bube R.H. Effects of heat treatment on the optical and electrical properties of indium-tin-oxide films. J Appl Phys 1978, 49(1):304-307.
20. Cairns D.R., Crawford G.P. Electro-mechanical properties of transparent conducting substrates for flexible electronic displays. Proc IEEE 2005, 93:1451-1458.
21. Su C., Sheu T.K., Chang Y.T., Wan M.A., Feng M.C., Hung W.C. Preparation of ITO thin films by sol-gel process and their characterizations. Synth Met 2005, 153(1/3):9-12.
22. Biswas P.K., De A., Dua L.K., Chkoda L. Surface characterization of sol-gel derived indium tin oxide films on glass. Bull Mater Sci 2006, 29(3):323-330.
23. Bühler G., Thölmann D., Feldmann C. One-pot synthesis of highly conductive ITO nanocrystals. Adv Mater 2007, 19:2224-2227.
24. Han H., Adams K., Mayer J.W., Alford T.L. Characterization of the physical and electrical properties of indium tin oxide on polyethylene napthalate. J Appl Phys 2005, 98. 083705-1-8.
25. 4+ concentration on electrical and optical properties of ITO nanocrystallites. J Phys: Conf Ser 2009, 146:012012.
26. Lai H.Y., Chen T.H., Chen C.H. Optical and electrical properties of ink-jet printed indium-tin-oxide nanoparticle films. Mater Lett 2011, 65:3336-3339.
27. Jeong J.A., Kim H.K. Characteristics of inkjet-printed nano indium tin oxide particles for transparent conducting electrodes. Curr Appl Phys 2010, 10:e105-e108.
28. Heusing S., de Oliveira P.W., Kraker E., Haase A., Palfinger C., Veith M. Wet chemical deposited ITO coatings on flexible substrates for organic photodiodes. Thin Solid Films 2009, 518:1164-1169.
29. Hong S.J., Kim J.W., Lim J.W., Choi G.S., Isshiki M. Characteristics of printed thin films using indium tin oxide (ITO) ink. Mater Trans 2010, 51(10):1905-1908.
30. Hwang M.S., Jeong B.Y., Moon J., Chun S.K., Kim J. Inkjet-printing of indium tin oxide (ITO) films for transparent conducting electrodes. Mater Sci Eng B 2011, 176:1128-1131.
31. Sun J., Velamakanni B.V., Gerberich W.W., Francis L.F. Aqueous latex/ceramic nanoparticle dispersions: colloidal stability and coating properties. J Colloid Interface Sci 2004, 280:387-399.
32. Keyanpour-Rad M., Salarian T., Moztarzadeh F. Effect of molecular weight and concentration of itaconic/acrylic acids copolymer liquid on mechanical properties of the formulated glass ionomer dental cement. Iran Polym J 1998, 7:163-167.
33. 3 devices: influence of paste rheology on print morphology and component properties. J Am Ceram Soc 2001, 84(11):2462-2468.
34. Guo R., Qi H., Guo D., Chen X., Yang Z., Chen Y. Preparation of high concentration ceramic inks for forming by jet-printing. J Eur Ceram Soc 2003, 23:115-122.