REFERENCES
- Mabery, C. F. (1910), “Lubrication and Lubricants,” Industrial and Engineering Chemistry, 169, pp 317–328.
- Salomon, G., Gee, A. W. J. D., and Zaat, J. H. (1964), “Methanol-Chemical Factors in MoS2-Film Lubrication,” Wear, 7, pp 87–101.
- Kroto, H. W., Heath, J. R., Brien, S. C. O., Curl, R. F., and Smalley, R. E. (1985), “C60: Buckminsterfullerene,” Nature, 318, pp 162–163.
- Kratschmer, W., Lamb, L. D., Fostiropoulos, K., and Huffman, D. R. (1990), “Solid C60: a New Form of Carbon,” Nature, 347, pp 354–358.
- Feng, B. (1997), “Relation between the Structure of C60 and Its Lubricity: A Review,” Lubrication Science, 9, pp 181–183.
- Xue, Q. J., and Zhang, J. (1995), “Friction and Wear Mechanisms of C60/Stearic-Acid Langmuir-Blodgett Films,” Tribology International, 28, pp 287–291.
- Tao, X., Jiazheng, Z., and Kang, X. (1996), “The Ball-Bearing Effect of Diamond Nanoparticles as an Oil Additive,” Journal of Physics D: Applied Physics, 29, pp 2932–2937.
- Chou, R., Hernández Battez, A. H., Cabello, J. J., Viesca, J. L., Osorio, A., and Sagastume, A. (2010), “Tribological Behavior of Polyalphaolefin with the Addition of Nickel Nanoparticles,” Tribology International, 43, pp 2327–2332.
- Yu, H. L., Xu, Y., Shi, P. J., Xu, B. S., Wang, X. L., Liu, Q., and Wang, H. M. (2008), “Characterization and Nano-Mechanical Properties of Tribofilms Using Cu Nanoparticles as Additives,” Surface and Coatings Technology, 203, pp 28–34.
- Viesca, J. L., Hernández Battez, A., González, R., Chou, R., and Cabello, J. J. (2011), “Antiwear Properties of Carbon-Coated Copper Nanoparticles Used as an Additive to a Polyalphaolefin,” Tribology International, 44, pp 829–833.
- Saito, Y. (1995), “Nanoparticles and Filled Nanocapsules,” Carbon, 33, pp 979–988.
- Saito, Y., Okuda, M., and Yoshikawa, T. (1994), “Correlation between Volatility of Rare Earth Metals and Encapsulation of Their Carbides in Carbon Nanocapsules,” Journal of Physical Chemistry, 98, pp 6696–6698.
- Dravid, V. P., Host, J. J., Teng, M. H., Hwang, B. E. J., Johnson, D. L., Mason, T. O., and Weertman, J. R. (1995), “Controlled-Size Nanocapsules,” Nature, 374, pp 602.
- Scott, J. H. J., and Majetich, S. A. (1995), “Morphology, Structure, and Growth of Nanoparticles Produced in a Carbon Arc,” American Physical Society Physics. Review B, 52, pp 12564–12571.
- Lu, Y., Zhu, Z., and Liu, Z. (2005), “Carbon-Encapsulated Fe Nanoparticles from Detonation-Induced Pyrolysis of Ferrocene,” Carbon, 43, pp 369–374.
- Li, J. X., and Banhart, F. (2005), “The Deformation of Single Nanometer-Sized Metal Crystals in Graphitic Shells,” Advanced Materials, 17, pp 1539–1542.
- Wu, W., He, Q., and Jiang, C. (2008), “Magnetic Iron Oxide Nanoparticles: Synthesis and Surface Functionalization Strategies,” Nanoscale Research Letters, 3, pp 397–415.
- Asaka, K., Miyazawa, K., and Kizukal, T. (2009), “The Toughness of Multi-Wall Carbon Nanocapsules,” Nanotechnology, 20, p 385705.
- Sun, L., Krasheninnikov, A. V., Ahlgren, T., Nordlund, K., and Banhart, F. (2008), “Plastic Deformation of Single Nanometer-Sized Crystals,” Physical Review Letters, 101, pp 156101–4.
- Shen, M., Luo, J., and Wen, S. (2001), “The Tribological Properties of Oils Added with Diamond Nano-Particles,” Tribology Transactions, 44(3), pp 494–498.
- Gara, L., and Zou, Q. (2012), “Friction and Wear Characteristics of Water-Based ZnO and Al2O3 Nanofluids,” Tribology Transactions, 55(3), pp 345–350.
- Gara, L., and Zou, Q. (2013), “Friction and Wear Characteristics of Oil-Based ZnO Nanofluids,” Tribology Transactions, 33, pp 979–988.
- Hwang, G. L. (2007), “Preparation of Hollow Carbon Nanocapsules,” U.S. Patent 7,156,958 B2.
- Chen, C. S., Chen, X. H., Xu, L. S., Yang, Z., and Li, W. H. (2005), “Modification of Multi-Walled Carbon Nanotubes with Fatty Acid and Their Tribological Properties as Lubricant Additive,” Carbon, 43, pp 1660–1666.
- G77-05. (2005), “Standard Test Method for Ranking Resistance of Materials to Sliding Wear Using Block-on-Ring Wear Test,” ASTM International: West Conshohocken, PA.
- Hamrock, B. J., Schmid, S. R., and Jacobson, B. O. (2004), Fundamentals of Fluid Film Lubrication, McGraw-Hill: St. Louis, MO.
- Teveta, O., Huth, P. V., Biro, R. P., Rosentsveiga, R., Wagnera, H. D., and Tennea, R. (2011), “Friction Mechanism of Individual Multilayered Nanoparticles,” Proceedings of the National Academy of Sciences, 108, pp 19901–19906.
- Lahouij, I., Dassenoy, F., Knoop, L. D., Martin, J. M., and Vacher, B. (2011), “In-Situ TEM Observation of the Behavior of an Individual Fullerene-Like MoS2 Nanoparticle in a Dynamic Contact,” Tribology Letters, 42, pp 133–140.
- Lena, Y., Vincenzo, P., Rita, R., Yishay, F., Reshef, T., and Adolfo, S. (2013), “Tribological Studies of Rhenium Doped Fullerene-Like MoS2 Nanoparticles in Boundary, Mixed and Elasto-Hydrodynamic Lubrication Conditions,” Wear, 297, pp 1103–1110.
- Hu, Z. S., Dong, J. X., Chen, G. X., and He, J. Z. (2000), “Preparation and Tribological Properties of Nanoparticle Lanthanum Borate,” Wear, 243, pp 43–47.
- Markov, D., and Kelly, D. (2000), “Mechanisms of Adhesion-Initiated Catastrophic Wear: Pure Sliding,” Wear, 239, pp 189–210.
- Kalin, M., Kogovseka, J., and Remskarb, M. (2012), “Mechanisms and Improvements in the Friction and Wear Behavior Using MoS2 Nanotubes as Potential Oil Additives,” Wear, 281, pp 36–45.
- Lahouij, I., Bucholz, E. W., Vacher, B., Sinnott, S. B., Martin, J. M., and Dassenoy, F. (2012), “Lubrication Mechanisms of Hollow-Core Inorganic Fullerene-Like Nanoparticles: Coupling Experimental and Computational Works,” Nanotechnology, 23, p 375701.
- Rapoport, L., Nepomnyashchy, O., Lapsker, I., Verdyan, A., Moshkovich, A., Feldman, Y., and Tenne, R. (2005), “Behavior of Fullerene-Like WS2 Nanoparticles under Severe Contact Conditions,” Wear, 259, pp 703–707.
- Rapoport, L., Leshchinsky, V., Lapsker, I., Volovik, Y., Nepomnyashchy, O., Lvovsky, M., Biro, R. P., Feldman, Y., and Tenne, R. (2003), “Tribological Properties of WS2 Nanoparticles under Mixed Lubrication,” Wear, 255, pp 785–793.