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Award Abstract #0210351
NIRT: Manufacturing/Synthesis and Nanostructure of Superhard Thin Films/Materials
| NSF Org: |
CMMI
Division of Civil, Mechanical, and Manufacturing Innovation
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| Initial Amendment Date: |
July 5, 2002 |
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| Latest Amendment Date: |
July 5, 2007 |
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| Award Number: |
0210351 |
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| Award Instrument: |
Standard Grant |
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| Program Manager: |
Clark V. Cooper
CMMI Division of Civil, Mechanical, and Manufacturing Innovation
ENG Directorate for Engineering
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| Start Date: |
July 1, 2002 |
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| Expires: |
December 31, 2007 (Estimated) |
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| Awarded Amount to Date: |
$1000000 |
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| Investigator(s): |
Raj Singh Raj.Singh@uc.edu (Principal Investigator)
Punit Boolchand (Co-Principal Investigator)
Howard Jackson (Co-Principal Investigator)
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| Sponsor: |
University of Cincinnati Main Campus
University Hall, Suite 530
Cincinnati, OH 45221 513/556-2870
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| NSF Program(s): |
NANOSCALE: INTRDISCPL RESRCH T,
MATERIALS AND SURFACE ENG
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| Field Application(s): |
0308000 Industrial Technology
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| Program Reference Code(s): |
MANU, 9146, 1788, 1674
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| Program Element Code(s): |
1674, 1633
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ABSTRACT
0210351 Singh
The primary objectives of the proposed NIRT (Nanoscale Interdisciplinary Research Team) research addressing the theme on manufacturing processes at the nanoscale are to: (1) develop processing methods to manufacture novel superhard thin films of controlled nano-structures and properties in the ternary (C-B-N) system, (2) develop advanced techniques to characterize the nano-structures of selected new superhard materials, and (3) relate the scale of the nano-structure (1-50 nm) to their unusual properties such as hardness. With this vision in mind, the premise of the proposed NIRT is that the functionality/property of nano-structured materials in the form of thin films and coatings can be designed by employing a suitable nanoscale architecture and distribution of the basic structural building blocks to control the properties at a scale of 1-50 nm. In this proposal we seek to address the design of superhard and nano-structured thin films not by just refining the polycrystalline microstructural scale, but rather by exploring the novel routes for processing/manufacturing, characterizing, and controlling the nano-structure of new materials in order to achieve unusual mechanical, physical, thermal, and possibly other properties. Thus, materials will be first designed and processed/manufactured to have only short-range order and then nano-structured thin films will be created by clever modifications of the non-equilibrium processing methods, and/or kinetic/thermal manipulation of the networks/nanostructues to create nano-crystalline thin films. The eventual aim of these activities will be to develop predictive tools for designing and synthesizing materials with unusual properties/hardness so that a knowledge base for "creating materials by design" will be obtained. To accomplish these goals of the NIRT, a truly interdisciplinary and complementary research team has been assembled.
On a broader scale, a successful completion of this research will lead to a knowledge base for designing and manufacturing nano-structured superhard materials in the ternary C-B-N system with unusual mechanical and physical properties for applications in machining, electronic devices, MEMS, and functional/protective coatings. Graduate and undergraduate students and research associate/post doc will be trained through participation on this research project and their MS and Ph.D. theses. In addition, minority/women high school and undergraduate students will also be mentored and exposed to this research.
PUBLICATIONS PRODUCED AS A RESULT OF THIS RESEARCH
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(Showing: 1 - 10 of 19)
(Showing: 1 - 19 of 19)
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C.B. Samantaray and R.N. Singh. "A Review of Synthesis and Properties of Cubic Boron Nitride (c-BN) Thin Films," International Materials Reviews, v.52(2), 2005, p. 313.
D. Das and R.N. Singh. "A Review on Nucleation, Growth, and Low-Temperature Synthesis of Diamond Thin Films," International Materials Reviews, v.52(2), 2007, p. 1.
D. Das, V. Jayaseelan, R. Ramamurti, R.S. Kukreja, L. Guo, and R.N. Singh. "Low Surface Temperature Synthesis and Characterization of Diamond Thin Films," Diamond and Related Materials, v.15, 2006, p. 1336.
L. Guo, R. N. Singh, and H. J. Kleebe. "Growth of Boron Nitride Nanowires by Microwave Plasma CVD, in Nanomaterials," Materials Science and Technology, 2006.
L. Guo, R. N. Singh, and H. J. Kleebe. "Nucleation and Growth of Boron Nanowires on ZrB2 Particles," Chemical Vapor Deposition, v.12(7), 2006, p. 448.
L. Guo, R. N. Singh, and H. J. Kleebe. "Nucleation and Growth of Boron Nanowires on ZrB2 Particles?," Chemical Vapor Deposition, v.12(7), 2006, p. 448.
L. Guo, R.N. Singh, and H-J Kleebe. "Growth of Boron-rich nanowires by Chemical Vapor Deposition (CVD)," J. Nanomaterials, 2006.
L. Guo, R.N. Singh, and H-J Kleebe. "Growth of Boron-rich nanowires by Chemical Vapor Deposition (CVD)," J. Nanomaterials, v.2006, 2006, p. 58237.
L. Guo, R.N. Singh, and H-J Kleebe. "Growth of Tube-like B-N Compounds by Chemical Vapor Deposition (CVD)," Ceramic Transactions, v.172, 2006, p. 79.
R. Ramamurti, V. Shanov, R.N. Singh, S. Mamedov, and P. Boolchand. "Raman Spectroscopy Study of the Influence of Processing Conditions on the Structure of Polycrystalline Diamond Films," J. Vac. Sci. Tech, v.A24(2), 2006, p. 179.
R. Ramamurti, V.Shanov, R.N. Singh, M. Mamedov, and P. Boolchand. "A Raman Spectroscopy Study of the Influence of Processing Conditions on the Structure of Polycrystallins Diamond Films," J. Vac. Sci. & Tech, v.A 24(2), 2006, p. 179.
R.S. Kukreja and R.N. Singh. "Synthesis and Characterization of C-N Thin Filma Deposited on Si (100) Wafer by MPCVD," Ceramic Trans., 2005.
R.S. Kukreja, V. Shanov, and Raj N. Singh. "Synthesis of C and N Based Thin Films by Microwave Plasma Chemical Vapor Deposition," Innov. Proc. & Synth., v.VIII, 2004, p. 147.
R.S. Kukreja, V. Shanov, and Raj N. Singh. "Synthesis of C and N Based Thin Films by Microwave Plasma Chemical Vapor Deposition," Innov. Proc. & Synth., v.VIII, 2004, p. 147.
V. Jayaseelan, V. Shanov, and R.N. Singh. "Effect of Argon Addition During ECR Mode Nucleation of Diamond Films Grown by MPCVD," Adv. Diel.Piezo. & Ferroele. Thin Films, 2004, p. 75.
V. Jayaseelan, V. Shanov, and R.N. Singh. "Effect of Argon Addition During ECR Mode Nucleation of Diamond Films Grown by MPCVD," Adv. Diel.Piezo. & Ferroele. Thin Films, 2004, p. 75.
V. Shanov, R. Ramamurti, and R.N. Singh. "Effect of Pulsed Methane Flow on Nanostructured Diamond Films Synthesized by Microwave Plasma CVD," Ceramic Tran./Innovative Proc, v.VII, 2003, p. 283.
V. Shanov, R. Ramamurti, and R.N. Singh. "Effect of Pulsed Methane Flow on Nanostructured Diamond Films Synthesized by Microwave Plasma CVD," Ceramic Tran./Innovative Proc, v.VII, 2003, p. 283.
V.S. Jayaseelan and R.N. Singh. "Effect of Bias on Nucleation and Growth of Diamond Films," Ceramic Trans., 2005.
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(Showing: 1 - 10 of 19) (Showing: 1 - 19 of 19) |
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