REFERENCES
- Camacho-Bragado, G. A., Dixon, F., and Colonna, A. (2011), “Characterization of the Response to Moisture of Talc and Perlite in the Environmental Scanning Electron Microscope,” Micron, 42(3), pp 257–262.
- Kaggwa, G. B., Huynh, L., Ralston, J., and Bremmell, K. (2006), “The Influence of Polymer Structure and Morphology on Talc Wettability,” Langmuir, 22(7), pp 3221–3227.
- Brown, C. A. (2012), “Magnetic Storage Devices with Means for Supplying a Beneficial Vapor via a Desiccant Device,” Patent Application No. US20120039000.
- Kurashiki, A. K. (2010), “Ramp for Polyoxmethythylene Resin Hard Disk Drive,” Patent No. US7751150.
- Kamo, H. and Ban, Y. (2009), “Inner Part of Hard Disk Drive,” Patent No. EP1835505.
- Michot, L. J., Villieras, F., Francois, M., Yvon, J., Ledred, R., and Cases, J. M. (1994), “The Structural Microscopic Hydrophilicity of Talc,” Langmuir, 10(10), pp 3765–3773.
- Morris, G. E., Fornasiero, D., and Ralston, J. (2002), “Polymer Depressants at the Talc–Water Interface: Adsorption Isotherm, Microflotation and Electrokinetic Studies,” International Journal of Mineral Processing, 67(1–4), pp 211–227.
- Rotenberg, B., Patel, A. J., and Chandler, D. (2011), “Molecular Explanation for Why Talc Surfaces Can Be Both Hydrophilic and Hydrophobic,” Journal of the American Chemical Society, 133(50), pp 20521–20527.
- Zhao, G., Wang, T. M., and Wang, Q. H. (2012), “Studies on Wettability, Mechanical and Tribological Properties of the Polyurethane Composites Filled with Talc,” Applied Surface Science, 258(8), pp 3557–3564.
- Nath, S. K., Wong, C. H., Sorkin, V., Sha, Z. D., Zhang, Y. W., and Kim, S. G. (2013), “Study of the Spreading of Perfluoropolyether Lubricants on a Diamond-Like Carbon Film,” Tribology Transactions, 56(2), pp 255–267.
- Kondo, H., Sungkil, L., and Hanaoka, H. (2009), “Durable Anti-Smudge Materials for Display Terminals,” Tribology Transactions, 52(1), pp 29–35.
- Nakakawaji, T., Amo, M., Limura, K., Kato, T., and Torita, N. (2008), “Reversed Micelle Structures in PFPE Lubricant Thin Films on Magnetic Disk Surface Observed by Non-Contact AFM,” Tribology Transactions, 51(5), pp 652–658.
- Gong, X., Frankert, S., Wang, Y. J., and Li, L. (2013), “Thickness-Dependent Molecular Arrangement and Topography of Ultrathin Ionic Liquid Films on a Silica Surface,” Chemical Communications, 49, pp 7803–7805.
- Wang, Y. J., Sun, J. N., and Li, L. (2012), “What Is the Role of the Interfacial Interaction in the Slow Relaxation of Nanometer-Thick Polymer Melts on a Solid Surface?” Langmuir, 28(14), pp 6151–6156.
- San Paulo, A. and Garcia, R. (2000), “High-Resolution Imaging of Antibodies by Tapping-Mode Atomic Force Microscopy: Attractive and Repulsive Tip–Sample Interaction Regimes,” Biophysical Journal, 78(3), pp 1599–1605.
- Deacon, R. F. and Goodman, J. F. (1958), “Lubrication by Lamellar Solids,” Proceedings of the Royal Society of London A, 243(1235), pp 464–482.
- Pacansky, J. and Waltman, R. J. (1997), “The Effect of Lewis Acid Catalysis on the Decomposition of CF3OCF3 to COF2 and CF4,” Journal of Fluorine Chemistry, 83(1), pp 41–45.
- Li, L., Jones, P. M., Merzlikine, A. G., and Hsia, Y. T. (2004), “Resistance of Fomblin Z-type Lubricants to Lewis Acid–Catalyzed Decomposition: Effect of the Chemical and Electronic Structure of End-Groups,” Tribology Letters, 17(4), pp 953–959.
- Kasai, P. H. and Wheeler, P. (1991), “Degradation of Perfluoropolyethers Catalyzed by Aluminum-Chloride,” Applied Surface Science, 52(1–2), pp 91–106.
- Kasai, P. H. (1992), “Perfluoropolyethers—Intramolecular Disproportionation,” Macromolecules, 25(25), pp 6791–6799.
- Khraisheh, M., Holland, C., Creany, C., Harris, P., and Parolis, L. (2005), “Effect of Molecular Weight and Concentration on the Adsorption of CMC onto Talc at Different Ionic Strengths,” International Journal Mineral Processing, 75(3–4), pp 197–206.
- Cuba-Chiem, L. T., Huynh, L., Ralston, J., and Beattie, D. A. (2008), “In situ Particle Film ATR FTIR Spectroscopy of Carboxymethyl Cellulose Adsorption on Talc: Binding Mechanism, pH Effects, and Adsorption Kinetics,” Langmuir, 24(15), pp 8036–8044.