James F. Groves
Department of Materials Science and Engineering
University of Virginia

Patents

1. J.F. Groves, R.K. Catalano, and M.E. Gorman, "Method of Surface Patterning at the Micro- and Nano-scale for Selected Biomaterial Adhesion," U.S. Patent Pending.

2. J.F. Groves and Y. Du, "Method and System for Focused Ion Beam Directed Self-assembly of Metal Oxide Island Structures," U.S. Patent Pending.

3. D.D. Hass, J.F. Groves, and H.N.G. Wadley, "Method for Efficient Application of a Coating to a Surface," U.S. Patent Pending.

4. H.N.G. Wadley, D.D. Hass, J.F. Groves, Z. Yu, and K.P. Dharmasena, “An Electron Beam Method for Creating Combinatorial Libraries: Application to Next Generation Thermal Barrier Coating Systems and Methods,” U.S. Patent Pending.

5. J.F. Groves, D.D. Hass, H.N.G. Wadley, G. Mattausch, H. Morgner, S. Schiller, "A Process and Apparatus for Plasma Activated Deposition in Vacuum," U.S. Patent 7,014,889, Issued March 21, 2006.

6. H.N.G. Wadley, J.F. Groves, "Production of Nanometer Particles by Directed Vapor Deposition of Electron Beam Evaporant," U.S. Patent 5,736,073, Issued April 7, 1998.

7. H.N.G. Wadley, J.F. Groves, "Directed Vapor Deposition of Electron Beam Evaporant," U.S. Patent 5,534,314, Issued July 9, 1996.
Publications
1. J. F. Groves, C. M. Agrawal, G. W. Pearsall, “Study of the Fracture Toughness and Fracture Morphology of Polybenzimidazole,” J. of Mat. Sci., 27, pp. 2235-2239, 1992.

2. D. M. Elzey, J. F. Groves, H. N. G. Wadley, “Fiber Fracture During Consolidation of Continuously Reinforced Metal Matrix Composites,” Model-Based Design of Materials and Processes, Ed. E. S. Russell et al., pp. 33-43, 1992.

3. H. N. G. Wadley, J. F. Groves, D. M. Elzey, “Fiber Damage Mechanisms During MMC Processing,” Proc. Processing Properties Applications of Metallic and Ceramic Materials Conf., Vol. 2, Ed. J. Beavers, pp. 1201-1213, 1992.

4. J. F. Groves, D. M. Elzey, H. N. G. Wadley, “Fiber Fracture During the Consolidation of Metal Matrix Composites,” Acta metall. mater. 42(6), pp. 2089-2098, 1994.

5. J. F. Groves, S. H. Jones, T. Globus, L. M. Hsiung, H. N. G. Wadley, “Directed Vapor Deposition of Amorphous and Polycrystalline Electronic Materials: Non-hydrogenated a-Si,” J. Electrochem. Soc., 142(10), pp. L173-L175, 1995.

6. J. F. Groves, P. L. Ratnaparkhi, H. N. G. Wadley, T. Globus, S. H. Jones, “Directed Vapor Deposition of Electronic Materials: Non-hydrogenated a-Si and Cu,” Proc., ISDRS, Charlottesville, VA, pp. 567-570, 1995.

7. J. F. Groves, H. N. G. Wadley, “Functionally Graded Materials Synthesis Via Low Vacuum Directed Vapor Deposition,” Composites Part B: Engineering, 28(1-2), pp.57-69, 1997.

8. J. F. Groves, H. N. G. Wadley, “Monte Carlo Modeling of Discrete Atom Transport During Directed Vapor Deposition,” Proc., 1996 MRS Fall Meeting, 441, pp. 541-548, 1997.

9. J. F. Groves, H. N. G. Wadley, A. P. Ritenour, D. D. Hass, P. L. Ratnaparkhi, “Electron Beam Directed Vapor Deposition,” Proc. Electron Beam Melting and Refining, Bakish Material Corp, pp.46-60, 1997.

10. H. N. G. Wadley, W. Zou, X. W. Zhou, J. F. Groves, S. Desa, R. Kosut, E. Abrahamson, S. Ghosal, A. Kozak, D. X. Wang, “Multiscale Simulations of the RF Diode Sputtering of Copper,” Proc., MRS Fall Meeting, 538, pp. 323-328, 1999.

11. S. Desa, S. Ghosal, R.L. Kosut, J.L. Ebert, A. Kozak, T.E. Abrahamson, J.F. Groves, D.W. Zhou, and H.N.G. Wadley, “Reactor-Scale Models for Rf-Diode Sputtering for GMR Thin-Film Growth,” JVST A, 17(4), pp. 1926, 1999.

12. J.F. Groves, G. Mattausch, H. Morgner, D.D. Hass, and H.N.G.Wadley, “Technology Update: Directed Vapour Deposition,” Surface Engineering, 16(6), pp. 461-464, 2000.

13. H. Morgner, G. Mattausch, and J.F. Groves, “Plasma Activation for Directed Vapor Deposition - a New Application for Hollow Cathode Arc Plasma,” Proc. Electron Beam Melting and Refining State of the Art 2000 Millennium Conference, Bakish Materials Corp. pp. 226-235, 2000.

14. G. Mattausch, H. Morgner, J.F. Groves, and J. Demuth, “A Novel EB Evaporation Tool for Directed Vapor Deposition,” Proc. Electron Beam Melting and Refining State of the Art 2000 Millennium Conference, Bakish Materials Corp. pp. 212-225, 2000.

15. J.F. Groves, G. Mattausch, H. Morgner, D.D. Hass, H.N.G. Wadley, “Directed Vapor Deposition: Low Vacuum Materials Processing Technology,” Proc. Electron Beam Melting and Refining State of the Art 2000 Millennium Conference, Bakish Materials Corp. pp. 236-248, 2000.

16. J.F. Groves and R. Hull, “The Center for Nanoscopic Materials Design,” Proceedings of the 14th Biennial IEEE/EDS University Government Industry Microelectronics (UGIM) Symposium, (IEEE: Piscataway, NJ) pp. 8-15, 2001.

17. J.C. Bean, J.F. Groves, N. Kansari, M. Appleyard, C. Lehmbeck, T. Wayne, and M. Brittingham, “The Creation of Microelectronics-based Visualizations to Enhance Science Education and Literacy,” Proceedings of the 14th Biennial IEEE/EDS University Government Industry Microelectronics (UGIM) Symposium, (IEEE: Piscataway, NJ) pp. 110-113, 2001.

18. J.F. Groves, Y. Marciano, D.D. Hass, G. Mattausch, H. Morgner, and H.N.G. Wadley, “Novel Vapor Phase Processing for High Performance Coatings,” SVC 44th Annual Technical Conference Proceedings, pp. 99-104, 2001.

19. G. Mattausch, H. Morgner, and J.F. Groves, “Novel EB evaporation and plasma activation tools for directed vapor deposition,” SVC 44th Annual Technical Conference Proceedings, pp. 141-146, 2001.

20. D.D. Hass, J.F. Groves, and H.N.G. Wadley, “Reactive Vapor Deposition of Metal Oxide Coatings,” Surface and Coatings Technology, 146-147, pp. 85-93, 2001.

21. J.F. Groves, Y. Marciano, D.D. Hass, G. Mattausch, H. Morgner, and H.N.G. Wadley, “Novel Vapor Phase Processing for High Performance Coatings,” Vacuum & Coating Technology, 2(12), pp. 24-30, 2001.

22. J.F. Groves and H.N.G. Wadley, “Deposition of Electron Beam Evaporant in a Low Vacuum Gas Flow Environment,” Book chapter in Innovative Processing of Films and Nanocrystalline Powders, Imperial College Press, Ed. K.L. Choy, pp. 253-287, 2002.

23. V. Vijaykumar, N. Kansari, J.F. Groves, and J.C. Bean, “The Creation of Web-Based Interactive Experiments on Microelectronics for Early Engineering Students,” Proceedings of the ASEE/IEEE Frontiers in Education Conference, v. 1, pp. T4F/3-T4F/8, 2002.

24. M. E. Gorman and J. F. Groves, "Training Students to be Interactional Experts," Proceedings of the Workshop on Societal Implications of Nanoscience and Nanotechnology, pp. 53-61, 2003.

25. M. E. Gorman, J. F. Groves, and R. K. Catalano, "Collaborative Research into the Societal Dimensions of Nanotechnology: A Model and Case Study," IEEE Technology and Society Magazine, 23(4), pp. 55-62, 2004.

26. Y. Du, S. Atha, R. Hull, J. F. Groves, I. Lyubinetsky, and D. R. Baer, "Focused Ion Beam Directed Self-Assembly of Cu2O islands on SrTiO3 (100)," Applied Physics Letters, 84(25), pp. 5213-5215, 2004.

27. Y. Du, A. Atha, R. Hull, J. F. Groves, I. Lyubinetsky, and D. R. Baer, "Guided Control of Cu2O Nanodot Self-Assembly on SrTiO3 (100)," Proc., 2004 MRS Spring Meeting, 811, pp. E.4.4.1-E.4.4.6, 2004.

28. M. E. Gorman, J. F. Groves, and J. Shrager, "Societal Dimensions of Nanotechnology as a Trading Zone: Results from a Pilot Study," Chapter in Discovering the Nanoscale D. Baird, A. Nordmann & J. Schummer (eds.) (IOS Press Amsterdam) pp. 63-73 (2004).

29. M. E. Gorman and J. F. Groves, "Collaboration on Converging Technologies: Education and Practice," Chapter in Managing Nano-Bio-Info-Cogno Innovations: Converging Technologies in Society, W.S. Bainbridge and M.C. Roco (eds.) (Springer Netherlands) pp. 71-87 (2006).

30. Y. Du, I. Lyubinetsky, D. R. Baer, and J. F. Groves, “Formation of Cu2O Quantum Dots on SrTiO3 (100): Self-Assembly and Directed Self-Assembly,” Journal of Applied Physics, 100, pp. 094315:1-5, 2006.

31. J. F. Groves, Y. Du, I. Lyubinetsky, and D. R. Baer, "Focused Ion Beam Directed Self-Assembly (Cu2O on SrTiO3): FIB Pit and Cu2O Nanodot Evolution," Superlattices and Microstructures, In Press, 2008.