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Journal of Coatings Technology and Research

Erschienen in:

01.09.2012

Preparation of polymer/silica composite antiglare coatings on poly(ethylene terphathalate) (PET) substrates

verfasst von: Chao-Ching Chang, Chien-Ming Chen, Feng-His Hwang, Ching-Chung Chen, Liao-Ping Cheng

Erschienen in: Journal of Coatings Technology and Research | Ausgabe 5/2012

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Abstract

3-(Trimethoxysilyl) propyl methacrylate and fluoroalkylsilane modified silica particles were UV-cured with the multifunctional crosslinking agent, dipentaerythritol hexaacrylate (DPHA), to prepare antiglare (AG) coatings that exhibit high hardness. Modified silica was used to impart surface roughness whereas DPHA was used to provide hardness and adhesiveness. The formed AG coatings were characterized in terms of topological, optical, and mechanical properties. It was found that with the increase of DPHA content in the coatings, the surface roughness and haze decreased while the gloss and clarity increased. For samples containing 40 and 50 wt% DPHA, the optical properties are comparable to commercial AG products for flat panel display and touch panels. These prepared coatings also demonstrate high hardness of 5–6H and 100% adhesion on poly(ethylene terphathalate) substrates.

Vorheriger Artikel “Quebracho” tannin derivative and boosters biocides for new antifouling formulations

Nächster Artikel Thermal and photocuring of an acrylate-based coating resin reinforced with nanosilica particles

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Schelle, C, Mennig, M, Krug, H, Jonschker, G, Schmidt, H, “One-Step Antiglare Sol-Gel Coating for Screens by Sol-Gel Techniques.” J. Non-Cryst. Solids, 218 163–168 (1997)CrossRef

Al-Dahoudi, N, Bisht, H, Göbbert, C, Krajewski, T, Aegerter, MA, “Transparent Conducting, Anti-static and Anti-static–Anti-glare Coatings on Plastic Substrates.” Thin Solid Films, 392 299–304 (2001)CrossRef

Aegerter, MA, Al-Dahoudi, N, “Wet-Chemical Processing of Transparent and Antiglare Conducting ITO Coating on Plastic Substrate.” J. Sol-Gel Sci. Technol., 27 81–89 (2003)CrossRef

Liu, BT, Teng, YT, “A Novel Method to Control Inner and Outer Haze of an Anti-glare Film by Surface Modification of Light-Scattering Particles.” J. Colloid Interface Sci., 350 421–426 (2009)CrossRef

Shoshi, S, Watanabe, S, Miyazaki, W, “Anti-glare Hard Coat Film and Process for Producing the Film.” US Patent 5,998,013, 1999

Matsunaga, N, Nakamura, K, “Antiglare Film, Method for Producing the Same, Polarizer and Liquid Crystal Display.” US Patent 6,398,371, 2002

Onozawa, Y, Maruoka, S, Shoshi, S, “Very Fine Anti-glare Hard Coat Film.” US Patent 6,613,426, 2003

Suzuki, H, “Anti-glare Film and Process for Producing Same Thereof.” US Patent 6,696,140, 2004

Miyazaki, K, Arai, T, “Optical Film Containing Anti-glare Layer and Image Display Apparatus Using the Same.” US Patent 6,773,122, 2004

10.

Chien, JC, Lai, TW, Wang, BP, Chen, HC, “Antiglare Film.” US patent 6,852,376, 2005

11.

Saitou, M, Harada, M, Koyama, M, Kimura, Y, “Transparent Hard Coat Film.” US Patent 6,869,673, 2005

12.

Nakamura, K, Amimori, I, Hokazono, H, Watanabe, J, “Anti-glare and Anti-reflection film, Polarizing Plate, and Image Display Device.” US Patent 6,888,593, 2005

13.

Shoshi, S, Inaoka, O, Takesako, Y, “Anti-glare Hard Coat Film.” US Patent 6,896,960, 2005

14.

Takahashi, H, Ushida, H, “Anti-glare Film, and Optical Member and Liquid Crystal Display Apparatus Using the Same.” US Patent 6,945,656, 2005

15.

Kawahara, S, Takahashi, N, “Optical Film and Liquid-Crystal Display Device Using the Optical Film.” US Patent 6,970,213, 2005

16.

Sakai, A, Yamahara, M, “Antiglare Film, Method for Fabricating the Same, Polarizer Element and Display Device Employing the Same, and Internal Diffusion Film.” US Patent 6,992,827, 2006

17.

Suga, T, Masaki, T, Arakawa, F, “Antiglare Film Process for Producing the Same, and Display Device Using Antiglare Film.” US Patent 7,008,066, 2006

18.

Kuwabara, M, Maeda, Y, “Anti-glare Film, Method of Producing the Same, and Display Equipped with the Same.” US Patent 7,258,908, 2007

19.

Takao, H, Hamamoto, D, Takada, K, Kusumoto, S, Kimura, Y, Shigematsu, T, “Hard-Coated Antiglare Film and Method of Manufacturing the Same.” US Patent 7,390,099, 2008

20.

Nagahama, T, Haga, Y, Watanabe, H, Matsumura, S, “Anti-glare Film, Method for Manufacturing the Same, and Display Device Using the Same.” US Patent 7,567,383, 2009

21.

Ninomiya, M, Kusumoto, S, Hamamoto, D, Takao, H, Shigematsu, T, “Hard-Coated Antiglare Film, Polarizing Plate, and Image Display.” US Patent 7,604,358, 2009

22.

Matsuura, Y, “Antiglare Film and Transmission-Type Liquid Crystal Display.” US Patent 7,628,496, 2009

23.

Murakami, T, Kawakami, S, “Method for Forming Anti-glare Layer and Anti-glare Film, and Ink-Jet Apparatus for Forming Anti-glare Layer.” US Patent 7,638,163, 2009

24.

Richter, P, Cairns, D, Bottari, F, “Antiglare Coating and Articles.” US Patent 7,736,428, 2010

25.

Tochigi, Y, Yoshinari, T, Takahashi, K, Kameshima, H, “Antiglare Film and Transmissive Liquid Crystal Display.” US Patent 7,824,044, 2010

26.

Lin, DJ, Don, TM, Chen, CC, Lin, BY, Lee, CK, Cheng, LP, “Preparation of a Nanosilica-Modified Negative-Type Acrylate Photoresist.” J. Appl. Polym. Sci., 107 1179–1188 (2008)CrossRef

27.

Chen, CC, Lin, DJ, Don, TM, Huang, FH, Cheng, LP, “Preparation of Organic–Inorganic Nano-Composites for Antireflection Coatings.” J. Non-Cryst. Solids, 354 3828–3835 (2008)CrossRef

28.

Lee, CK, Don, TM, Lai, WC, Chen, CC, Lin, DJ, Cheng, LP, “Preparation and Properties of Nano-silica Modified Negative Acrylate Photoresist.” Thin Solid Films, 516 8399–8407 (2008)CrossRef

29.

Chang, CC, Oyang, TY, Hwang, FH, Chen, CC, Cheng, LP, “Preparation of Polymer/Silica Hybrid Hard Coatings with Enhanced Hydrophobicity on Plastic Substrates.” J. Non-Cryst. Solids, 358 72–76 (2012)CrossRef

30.

Huang, FH, Chang, CC, Oyang, TY, Chen, CC, Cheng, LP, “Preparation of Almost Dispersant-Free Colloidal Silica with Superb Dispersablility in Organic Solvents and Monomers.” J. Nanopart. Res., 13 3885–3897 (2011)CrossRef

Titel: Preparation of polymer/silica composite antiglare coatings on poly(ethylene terphathalate) (PET) substrates
verfasst von: Chao-Ching Chang
Chien-Ming Chen
Feng-His Hwang
Ching-Chung Chen
Liao-Ping Cheng
Publikationsdatum: 01.09.2012
Verlag: Springer US
Erschienen in: Journal of Coatings Technology and Research / Ausgabe 5/2012
Print ISSN: 1547-0091
Elektronische ISSN: 1935-3804
DOI: https://doi.org/10.1007/s11998-011-9392-4

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