參考文獻 |
1. B. Masheder, C. Urata, A. Hozumi, Transparent and hard zirconia-based hybrid coatings with excellent dynamic/thermoresponsive oleophobicity, thermal durability, and hydrolytic stability. ACS Appl Mater Interfaces 5, 7899-7905 (2013).
2. B. Masheder, C. Urata, D. F. Cheng, A. Hozumi, Novel transparent zirconium-based hybrid material with multilayered nanostructures: studies of surface dewettability toward alkane liquids. ACS Appl Mater Interfaces 5, 154-163 (2013).
3. J. E. Shelby, Mechanical properties. Introduction to Glass Science and Technology (Ed. 2), 188-201 ( 2005).
4. Y. Yamane, Y. Sakano, K. Yamaguchi, N. Koike, H. Kishita, Fluorooxyalkylene group-containing polymer composition, a surface treatment agent comprising the same and an article treated with the agent. US20120077041, (2011).
5. S. P. Pujari, L. Scheres, A. T. Marcelis, H. Zuilhof, Covalent surface modification of oxide surfaces. Angew Chem Int Ed Engl 53, 6322-6356 (2014).
6. S. P. Pujari, Y. Li, R. Regeling, H. Zuilhof, Tribology and stability of organic monolayers on CrN: a comparison among silane, phosphonate, alkene, and alkyne chemistries. Langmuir 29, 10405-10415 (2013).
7. Corning 公司 Gorilla Glass 5產品目錄. Corning Gorilla Glass 5 PI Sheet, https://www.corning.com/microsites/csm/gorillaglass/PI_Sheets/Corning%20Gorilla%20Glass%205%220PI%220Sheet.pdf (2016).
8. M. Humood, A. Beheshti, A. A. Polycarpou, Surface reliability of annealed and tempered solar protective glasses: Indentation and scratch behavior. Solar Energy 142, 13-25 (2017).
9. S. H. Mousavi, M. H. Jilavi, M. Koch, E. Arzt, P. W. de Oliveira, Development of a Transparent Scratch Resistant Coating through Direct Oxidation of Al-Coated Glass Advanced Engineering Materials 19, 1-7 (2017).
10. W. Liu, Y. Chen, C. Ye, P. Zhang, Preparation and characterization of doped sol–gel zirconia films. Ceramics International 28, 349–354 (2002).
11. S. Iyer, W. W. Fan, Perfluoropolyether Coating Composition for Hard Surfaces. US patent 8268067, (2011).
12. 張瑞慶, 奈米壓痕技術與應用. 中華民國力學學會.
13. Y. Chen, W. Liu, Characterization and Investigation of the Tribological Properties of Sol Gel Zirconia Thin Films. J. Am. Ceram. Soc. 85, 2367–2369 (2002).
14. E. Tocha, H. Schonherr, G. Julius Vancso, N. Siebelt, Influence of Grain Size and Humidity on the Nanotribological Properties of Wear-Resistant Nanostructured ZrO2 Coatings: An Atomic Force Microscopy Study. Journal of the American Ceramic Society 88, 2498-2503 (2005).
15. S. M. O′Malley, V. M. Schneider. (2015), vol. US 2015/0132563 Al.
16. S. M. O′Malley, V. M. Schneider, Scratch-resistant liquid based coatings for glass. US patent 9663400, (2017).
17. S. Zhang, D. Sun, Y. Fu, H. Du, Recent advances of superhard nanocomposite coatings: a review. Surface and Coatings Technology 167, 113-119 (2003).
18. A. Mehner, J. Dong, T. Prenzel, W. Datchary, D. A. Lucca, Mechanical and chemical properties of thick hybrid sol–gel silica coatings from acid and base catalyzed sols. Journal of Sol-Gel Science and Technology 54, 355-362 (2010).
19. A. Mehner, W. Datchary, N. Bleil, H.-W. Zoch, The Influence of Processing on Crack Formation, Microstructure, Density and Hardness of Sol-Gel Derived Zirconia Films. Journal of Sol-Gel Science and Technology 36, 25–32 (2005).
20. D. A. Lucca et al., Investigation of Sol-Gel Derived Zr02 Thin Films by Nanoindentation. CIRP Annals - Manufacturing Technology 53, 475-478 (2004).
21. A. Díaz-Parralejo, A. L. Ortiz, R. Caruso, Effect of sintering temperature on the microstructure and mechanical properties of ZrO2-3mol%Y2O3 sol–gel films. Ceramics International 36, 2281-2286 (2010).
22. A. Díaz-Parralejo, A. L. Ortiz, F. Rodríguez-Rojas, F. Guiberteau, Effect of N2 sintering atmosphere on the hardness of sol–gel films of 3mol% Y2O3-stabilized ZrO2. Thin Solid Films 518, 2779-2782 (2010).
23. G. Ehrhart et al., Effects of rare-earth concentration and heat-treatment on the structural and luminescence properties of europium-doped zirconia sol–gel planar waveguides. Optical Materials 29, 1723-1730 (2007).
24. G. Ehrhart et al., Structural and optical properties of n-propoxide sol–gel derived ZrO2 thin films. Thin Solid Films 496, 227-233 (2006).
25. M. Garcı́a-Heras, J. M. Rincón, M. Romero, M. A. Villegas, Indentation properties of ZrO2–SiO2 coatings on glass substrates. Materials Research Bulletin 38, 1635-1644 (2003).
26. H. Zhang, J.-H. Zhou, Q.-L. Zhang, H. Yang, Mechanical and Optical Properties of Ion-exchange Strengthened Glass Coated with Sol-Gel Derived ZrO2-SiO2 Film. Journal of Inorganic Materials 28, 785-789 (2013).
27. C. Persson et al., Nano grain sized zirconia–silica glass ceramics for dental applications. Journal of the European Ceramic Society 32, 4105-4110 (2012).
28. M. Nogami, Glass preparation of the ZrO2-SiO2 system by the sol-gel process from metal alkoxides. Journal of Non-Crystalline Solids 69, 415-423 (1985).
29. Y. Castro, M. Aparicio, R. Moreno, A. DURA´ N, Silica-Zirconia Sol–Gel Coatings Obtained by Different Synthesis Routes. Journal of Sol-Gel Science and Technology 35, 41–50 (2005).
30. I. Uhlmann, D. Hawelka, E. Hildebrandt, J. Pradella, J. Rödel, Structure and mechanical properties of silica doped zirconia thin films. Thin Solid Films 527, 200-204 (2013).
31. X. M. Li, D. Reinhoudt, M. Crego-Calama, What do we need for a superhydrophobic surface? A review on the recent progress in the preparation of superhydrophobic surfaces. Chem Soc Rev 36, 1350-1368 (2007).
32. Y. Ohkubo, I. Tsuji, S. Onishi, K. Ogawa, Preparation and characterization of super-hydrophobic and oleophobic surface. Journal of Materials Science 45, 4963-4969 (2010).
33. C. S. Park et al., Semifluorinated Alkylphosphonic Acids Form High-Quality Self-Assembled Monolayers on Ag-Coated Yttrium Barium Copper Oxide Tapes and Enable Filamentization of the Tapes by Microcontact Printing. Langmuir 32, 8623-8630 (2016).
34. J. W. Krumpfer, T. J. McCarthy, Rediscovering silicones: ”unreactive” silicones react with inorganic surfaces. Langmuir 27, 11514-11519 (2011).
35. J. A. Blackwell, P. W. Carr, Development of an Eluotropic Series for the Chromatography of Lewis Bases on Zirconium Oxide. Analytical Chemistry 64, 863-873 (1992).
36. O. Schafer, H. j. Luckas, Method for the production of organosiloxanes modified by a phosponic acid ester. US 7,491,784 B2, (2009).
37. T. Song, Z. S. Li, J. G. Liu, S. Y. Yang, Novel phosphorus-silicon synergistic flame retardants: Synthesis and characterization. Chinese Chemical Letters 23 793-796 (2012).
38. J. P. Ding, Z. Q. Tao, X. B. Zuo, L. Fan, S. Y. Yang, Preparation and properties of halogen-free flame retardant epoxy resins with phosphorus-containing siloxanes. Polym. Bull 62, 829-841 (2009).
39. H. Steininger, M. Schuster, K. D. Kreuer, J. Maier, Intermediate temperature proton conductors based on phosphonic acid functionalized oligosiloxanes. Solid State Ionics 177, 2457-2462 (2006).
40. B. Youssef, E. About-Jaudet, C. Bunel, Bunel, C. Free-radical synthesis of new phosphorus-containing silane monomers and polysiloxanes. European Polymer Journal 34, 1649-1655 (1998).
41. Y. Li, P. Tao, A. Viswanath, B. C. Benicewicz, L. S. Schadler, Bimodal surface ligand engineering: the key to tunable nanocomposites. Langmuir 29, 1211-1220 (2013).
42. P. Tao, Y. Li, R. W. Siegel, L. S. Schadler, Transparent luminescent silicone nanocomposites filled with bimodal PDMS-brush-grafted CdSe quantum dots. J. Mater. Chem. C 1, 86-94 (2013).
43. C. Urata et al., Why can organic liquids move easily on smooth alkyl-terminated surfaces? Langmuir 30, 4049-4055 (2014).
44. Shin-Etsu產品目錄. 氟化防汙塗料X-71-195 http://www.topcocorp.com/upload/media/product/Sales6/download/touch/X-71-195%120%E194%BA%A197%E195%193%181%E197%199B%AE%E195%BD%195(%E194%B198%AD%E196%196%187).pdf.
45. 坤輝科技核心技術. 抗指紋技術, http://www.unibright.com.tw/TW/Technology04.aspx.
46. J. Li, X. Jiao, D. Chen, Preparation of Zirconia Fibers via a Simple Aqueous Sol‐Gel Method. Journal of Dispersion Science and Technology 28, 531-535 (2007).
47. X. Mao, Y. Bai, J. Yu, B. Ding, J. Ferreira, Flexible and Highly Temperature Resistant Polynanocrystalline Zirconia Nanofibrous Membranes Designed for Air Filtration. Journal of the American Ceramic Society 99, 2760-2768 (2016).
48. F. Namavar et al., Lotus effect in engineered zirconia. Nano Lett. 8 988-996 (2008).
49. S.-H. Joo et al., Enhanced wear resistivity of a Zr-based bulk metallic glass processed by high-pressure torsion under reciprocating dry conditions. Metals and Materials International 22, 383-390 (2016). |