Vish Prasad

Previous Scheduled Teaching

Published Intellectual Contributions

Abstracts and Proceedings

• Mishra D., Wong, S. L., Longtin J. P., Singh R. P., and Prasad V.. (2002). Iso-Gradient Lines in a Differentially Heated Cylindrical Fluid Layer using Coherent Gradient Sensing Interferometer.
• Mishra D., Prasad V., Ferland M. and Lutjen P. M.. (2001). Liquid Crystal Flow Visualization and Measurement of Temperature Fields: Extension to Third Dimension.
• Ma, R.-H., Zhang, H. , Prasad, V., Ha, S., and Skowronski, M.. (2001). Numerical simulation of RF heating for a SiC vapor growth system.
• Sun, D., Chatterjee, A., Zhang, H., and Prasad, V.; eds. V. Ganeshan, T.S. Sudararajan and E.G. Tulapurkara. (2000). An Adaptive Multizone Numerical Method for Internal Flows and Phase-change Problems.
• Wan, Y., Prasad, V., and Sampath, S.. (2000). Evaporation Modeling of Plasma Sprayed Powder Particles.
• Mishra, D., Pal. A., Nemick, N., Saha, A. K., Prasad, V., and Zhang, H.. (2000). Experimental and Numerical Study of Transport Phenomena in a Simulated Hydrothermal Crystal Growth System of Fluid-Saturated Porous Layer.
• Eds. M.S. Loknath, S.P. Venkateshan, B.V.S.S.S. Prasad, B. Basu, and V. Prasad. (2000). Heat and Mass Transfer, Proceeding of the 4th ISHMT-ASME Heat and Mass Transfer Conference.
• Pendurti, S., Zhang, H., and Prasad, V.. (2000). Modeling of Transport Phenomena and Defects in Crystal Growth Processes.
• Wang, G.-X., Prasad, V., and Sampath, S.. (2000). Rapid Solidification in Thermal Spray Deposition: Microstructure and Modeling.
• Ferland, M., Mishra, D., and Prasad, V.. (2000). Study of Solidification in a Simulated Czochralski System via Liquid Crystal Tracers.
• Xu, J., Ferland, M., Zhang, H., and Prasad, V.. (2000). Thermal Analysis of Solidification in a Czochralski-Type Rotating System.
• Saha, A. K., Zhang, H., and Prasad, V.. (2000). Thermal Transport During Seeding and Shouldering in the Czochralski Crystal Growth.
• Chatterjee, A., Sun, D., and Prasad, V.. (2000). Three-Dimensional Simulation of Low Pressure and LEC High Pressure Czochralski Growth.
• Wang, G.X., Goswami, R., Sampath, S., and Prasad, V.. (2000). Understanding the Heat Transfer and Solidification of Plasma-Sprayed Yttria-Stabilized Zirconia Coatings.
• Roy, A., Chen, Q.-S., Zhang, H., and Prasad, V.. (1999). An Integrated Model for Electromagnetic Field and Heat Transfer for Cylindrical Tube Growth System by EFG Method.
• Wang, G.X., and Prasad, V.. (1999). Microscale Heat and Mass Transfer and Non-equilibrium Phase Change in Rapid Solidification.
• Wan, Y.P., Gupta, V., Zhang, H., Varshney, A., Sampath, S., and Prasad, V.. (1999). Modeling and Visualization of Plasma Spray Process for Depositing Functionally Graded Materials.
• Wan, Y.P., Fincke, J.R., Sampath, S., and Prasad, V.. (1999). Modeling the In-flight Oxidation of Plasma Sprayed Molybdenum Particles.
• Yang, F., Prasad, V., and Kao, I.. (1999). Thermal Restriction Resistance of a Strip Contact Spot on a Thin Film.
• Zhang, T., Ladeinde, F., and Prasad, V.. (1999). Turbulent Convection in Large Czochralski Melt.
• Wang, G.-X., Sampath, S., Prasad, V., and Herman, H.. (1998). A Mathematical Model for Microsegregation in Rapidly Solidified Alloys.
• Sahoo, R.K., Prasad, V., Zhang, H., Chui, C.K., Tangerman, F., and Glimm, J.. (1998). A Multizone Adaptive Parallel Scheme for Solidification in a Rectangular Cavity.
• Bliss, D., Bryant, G., Jafri, I., Prasad, V., Gupta, K., Farmer, R., and Chandra, M.. (1998). A New High-Pressure System for Synthesis and Crystal Growth of Large Diameter InP.
• Nunes, E.M., Naraghi, M.H.N., Zhang, H., and Prasad, V.. (1998). A Volume Radiation Heat Transfer Model for Czochralski Crystal Growth Process.
• Zhang, H., Zheng, L.L., Prasad, V., and Larson, D.J.. (1998). Effect of Pulling Velocity on Interface Dynamics and Solute Segregation During Crystal Growth.
• Kao, I., Prasad, V., Chiang, F.P., Bhagavat, M., Wei, S., Chandra, M., Costantini, M., Leyvraz, P., Talbott, J., and Gupta, K.P.. (1998). Modeling and Experiments on Wiresaw for Large Silicon Wafer Manufacturing.
• Wan, Y.P., Prasad, V., Wang, G.-X., Sampath, S., and Fincke, J.. (1998). Modeling of Powder Particle Heating and Evaporation in Plasma Spraying Process.
• Wang, G.-X., Sampath, S., Prasad, V., and Herman, H.. (1998). Modeling of Rapid Solidification during Splat Quenching.
• Zhang, T., Wang, G.-X., Zhang, H., Ladeinde, F., and Prasad, V.. (1998). Oxygen Transport in Czochralski Growth of 300 mm Diameter Silicon Crystal.
• Zhang, T., Wang, G.-X., Ladeinde, F., and Prasad, V.. (1998). Thermo-Solutal Issues In Large Silicon Crystal Growth.
• Chatterjee, R. K. Sahoo and V. Prasad. (1998). Three Dimensional Simulation of Phase Change Processes: Application to Czochralski Crystal Growth.
• Prasad, V., Zhang, H., and Sampath, S.. (1997). Dynamic Simulations of Multiple Splat Spreading and Solidification.
• Zou, Y.F., Wang, G.-X., Zhang, H., Prasad, V., and Bliss, D.F.. (1997). Effect of Growth Conditions on Thermal Stress Development in High Pressure LEC Grown InP Crystals.
• Eltribi, S., Mukherjee, D.K., and Prasad, V.. (1997). Experiments on Liquid Surface Deformation upon Impingement by a Gas Jet.
• Zhang, H., and Prasad, V.. (1997). Heat and Mass Transfer in Czochralski Crystal Growth Systems.
• Mukherjee, D.K., Prasad, V., and Tan, H.. (1997). Measurement of Thermal Gradients and Fluctuations using Liquid Crystals.
• Hadjiloucas, C., Prasad, V., and Zhang, H.. (1997). Oscillatory Low Prandtl Number Convection in a Vertical Cavity: Effect of an Axial Magnetic Field and Aspect Ratio.
• Zhang, H., and Prasad, V.. (1997). Thermo-mechanical Modeling of High Pressure Liquid-Encapsulated Czochralski Crystal Growth Systems.
• Paniagua, J., Rohatgi, U.S., and Prasad, V.. (1997). Two-Phase Flow Instabilities During Startup Transients in Single Heated Channel Loops.
• Zhang, T., Ladeinde, F., Zhang, H., and Prasad, V.. (1996). A Comparison of Turbulence Models for Natural Convection in Enclosures: Applications to Crystal Growth.
• Zou, Y.F., Zhang, T., Nunes, E., Zhang, H., Prasad, V., Ladeinde, F., Naraghi, M., Anselmo, A., Bliss, D.F., and Gupta, K.P.. (1996). A Comprehensive Model for High Pressure Growth of InP Crystals.
• Zhang, H., Hou, T.Y. and Prasad, V.. (1996). A Numerical Scheme for Liquid-Liquid Systems: Deformation of a Falling Liquid Droplet.
• Nunes, E.M., Naraghi, M.H.N., Zhang, H., and Prasad, V.. (1996). Combined Radiative-Convective Modeling for Material Processes: Application to Crystal Growth.
• Zhang, H., and Prasad, V.. (1996). Effect of an Applied Magnetic Field on Buoyancy-Driven Flows in an Enclosure.
• Paniagua, J., Rohatgi, U.S., and Prasad, V.. (1996). Modeling of Two-Phase Flow Instabilities During Startup Transient Utilizing RAMONA-4B Methodology.
• Si, W., Chung, H., Dudley, M., Anselmo, A., Bliss, D.F., and Prasad, V.. (1996). Study of Defect Structures in MLEK Grown InP Single Crystals by Synchrotron White Beam X-Ray Topography.
• Eds. Prasad, V., et al.. (1996). Transport Phenomena in Manufacturing and Materials Processing.
• Zhang, H., and Prasad, V.. (1995). A High Resolution Numerical Model for Phase Change and Free Surface Problems.
• Fang, C. C., and Prasad, V.. (1995). A Process Model for Thin Film Deposition by Sputtering: Study for Bottom Coverage of Sub-micron Contact Holes.
• Zhang, H., Prasad, V., and Moallemi, K.. (1995). A Solution Adaptive Scheme for Deformable Free Surface Flow and Heat Transfer.
• Fang, C. C., Hsieh, J. J., Joshi, R. V., Jones, F., and Prasad, V.. (1995). Collimated Sputter-deposition of Metal Liners: Modeling of Microstructure and Step Coverage.
• Zou, Y.F., Zhang, H., and Prasad, V.. (1995). Coupled Melt Flow and Stress Predictions for Czochralski Crystal Growth Processes.
• Zhang, H., and Prasad, V.. (1995). Multizone Adaptive Simulations for High Pressure Crystal Growth.
• Mukherjee, D.K., Prasad, V., and Zhang, H.. (1995). Non-Invasive Thermography of Convection in a Rotating System.
• Zhang, H., and Prasad, V.. (1995). Transport Phenomena of Czochralski Crystal Growth at Low and High Pressures.
• Eds. Himasekhar, K., Prasad, V, Osswald, T., and Batch, G.. (1994). Advances in Computer-Aided Engineering of Polymer Processing.
• Anselmo, A., Prasad, V., and Koziol, J.. (1994). Buoyancy-Driven Flows in Low Aspect Ratio Melts for the Czochralski Crystal Growth Process.
• Eds. Prasad, V. and others. (1994). Thermal Processing of Materials: Thermo-Mechanics, Control and Composites.
• Mukherjee, D. K., Shih, J., and Prasad, V.. (1994). Visualization Study of Melting of an Ice Sphere in a Pool of Water.
• Eds. Prasad, V. and Arimilli, R. V.. (1993). Advanced Computations in Materials Processing.
• Eds. Zumbrunnen, D. A., Seyed-Yagoobi, J., Prasad, V. and Charmchi, M.. (1993). Heat and Mass Transfer in Materials Processing and Manufacturing.
• Adetutu, O., and Prasad, V.. (1993). Melting in Rectangular and Cylindrical Cavities : Effects of Curvature, Aspect Ratio and Buoyancy Forces.
• Fang, C. C., Jones, F., and Prasad, V.. (1993). Molecular Dynamics Modeling of Growth, Microstructure and Stress in Sputter-Deposited Thin Films with Impurity Atom Incorporation.
• Bliss, D. F., Adamski, J. A., Higgins, W. M., Prasad, V., and Zach, F. X.. (1993). Phosphorus-Rich InP Grown by a One-Step In-Situ MLEK Crystal Growth Process.
• Bijlani, C., Patti, F., and Prasad, V.. (1993). Thermal Analysis and Design of a Passive Reflux Condenser for the Simplified Boiling Water Reactor.
• Eds. Chan, C.-L., Incropera, F. P. and Prasad, V.. (1993). Transport Phenomena in Non-Conventional Manufacturing and Materials Processing.
• Prasad, V., Lauriat, G., and Kladias, N.; Eds. M. Quintard and M. Todorovic. (1992). "Non-Darcy Effects on Natural Convection in a Vertical Porous Cavity," Heat and Mass Transfer in Porous Media.
• Murtugudde, R., Cane, M. A., and Prasad, V.. (1992). A Reduced Gravity, Primitive Equation Ocean GCM With An Isopycnal Vertical Coordinate.
• Adetutu, O., and Prasad, V.. (1992). Effect of Buoyancy on Melting in a Horizontal Cylinder.
• Adetutu, O., and Prasad, V.. (1992). Melting in a Cylindrical Cavity: Combined Effects of Curvature, Aspect Ratio, Buoyancy and Surface Tension Forces.
• Prasad, V.; S. Kakac et al., eds.. (1991). "Convective Flow Interaction and Heat Transfer Between Fluid and Porous Layers," Proc. NATO ASI, Convective Heat and Mass Transfer in Porous Media.
• Lai, F.C., Kulacki, F. A., and Prasad, V.; S. Kakac et al., eds.. (1991). "Mixed Convection in Porous Media," NATO ASI, Convective Heat and Mass Transfer in Porous Media.
• Lauriat, G., and Prasad, V.; S. Kakac et al., eds.. (1991). "Natural Convection in a Vertical Porous Annulus," NATO ASI, Convective Heat and Mass Transfer in Porous Media.
• Prasad, V., and Kladias, N.; S. Kakac et al., eds.. (1991). "Non-Darcy Convection in Saturated Porous Media," Proc. NATO Advanced Study Institute, Convective Heat and Mass Transfer in Porous Media.
• Eds., Pepper et al.. (1991). Computational Techniques and Numerical Heat Transfer on PCs and Workstations.
• Fang, C. C., Jones, F., and Prasad, V.. (1991). Evaluation of Constant Temperature Control Algorithms in Modeling of Sputter-Deposited Thin Film Processes.
• Prasad, V. (1991). Flow Instabilities and Heat Transfer in Fluid overlying Horizontal Porous Layers.
• Eds., Couvillion, R. J., Prasad, V., Krause, W. B., and Kececioglu, I.. (1991). Heat Transfer in Geophysical Media.
• Anselmo, A., Prasad, V., and Koziol, A.. (1991). Melting of a Sphere when Dropped in a Pool of Melt with Applications to Partially-Immersed Silicon Pellets.
• Joshi, R. V., Prasad, V., and Anselmo, A.. (1991). Modeling of Growth Behavior of Low Pressure Chemical Vapor Deposition of Tungsten Films.
• Shukla, V., Murtugudde, R., Prasad, V., and Cane, M.. (1991). Natural Convection in a Horizontal Cavity with a Linear Temperature Variation on the Top.
• Eds., Alam et al.. (1991). Thin Film Heat Transfer - Properties and Processing.
• Prasad, V., and Tian, Q.. (1990). An Experimental Study of Thermal Convection in Fluid-Superposed Porous Layers Heated From Below.
• Esmaili, E., Bijlani, C., Prasad, V., Shimura, K., and Manatsuki, I.. (1989). Analytical Evaluation of Natural Convective Cooling of the Nuclear Reactor Enclosure Structure.
• Kladias, N., and Prasad V.. (1989). Convective Instabilities in Horizontal Porous Layers Heated From Below: Effects of Grain Size and its Properties.
• Shen, R., Prasad, V., and Keyhani, M.. (1989). Effect of Aspect Ratio and Size of Heat Source on Free Convection in a Discretely Heated Vertical Cavity.
• Prasad, V., Brown, K., and Tian, Q.. (1989). Flow Visualization and Heat Transfer Experiments in Fluid-Superposed Porous Layers Heated From Below.
• David, E., Lauriat, G., and Prasad, V.. (1989). Non-Darcy Natural Convection in Packed-Sphere Beds between Concentric Vertical Cylinders.
• Keyhani, M., Prasad, V., Shen, R., and Wong, T. -T. (1988). Free Convection Heat Transfer from Discrete Heat Sources in a Vertical Cavity.
• Kladias, N. and Prasad V.. (1988). Non-Darcy, Oscillating Convection in Horizontal Porous layers Heated From Below.
• Prasad, V., Lauriat, G., and Kladias, N.. (1988). Reexamination of Darcy-Brinkman Solutions for Free Convection in Porous Media.
• Lai, F. -C., Prasad, V., and Kulacki, F. A.. (1987). Effects of the Size of Heat Source on Mixed Convection in Horizontal Porous Layers Heated from Below.
• Eds., Vafai, K., Prasad, V., and Catton, I.. (1987). Heat Transfer in Geophysical and Geothermal Systems.
• Eds., Prasad, V., Catton, I., and Cheng, P.. (1987). Mixed Convection Heat Transfer - 1987.
• Lai, F. -C., Kulacki, F. A., and Prasad, V.. (1987). Mixed Convection in Horizontal Porous Layers: Effects of Thermal Boundary Conditions.
• Prasad, V., and Kulacki, F. A.. (1986). Effects of the Size of Heat Source on Natural Convection in Horizontal Porous Layers Heated from Below.
• Prasad, V., Kulacki, F. A., and Stone, K.. (1986). Free Convection in a Porous Cavity with a Finite Wall Heat Source.
• Eds., Prasad, V. and Hussain, N. A.. Natural Convection in Porous Media.

Book

• Prasad, V. Annual Review of Heat Transfer, Vol. 26.
• Prasad, V., Jaluria, Y., Zhang, Z. Annual Review of Heat Transfer Vol. 25. 25 Begell House.
• Prasad, V., Jaluria, Y., Zhang, Z. Annual Review of Heat Transfer Vol. 24. Annual Review of Heat Transfer.
• Prasad, V., Jaluria, Y., Zhang, Z. (2020). Annual Review of Heat Transfer Vol. 23. Annual Review of Heat Transfer.
• Chen, G., Prasad, V., Jaluria, Y. (2019). Annual Review of Heat Transfer Vol. 22. 22 Redding, CT, Begell House.
• Chen, G., Prasad, V., Jaluria, Y. (2018). Annual Review of Heat Transfer Vol. 21. 265. Redding, CT, Begell House.
• Chen, G., Prasad, V., Jaluria, Y. (2017). Annual Review of Heat Transfer Vol. 20. XX Danbury, CT, Begell House.
• Chen, G., Prasad, V., Jaluria, Y. (2016). Annual Review of Heat Transfer Vol. 19. XIX Danbury, CT, Begell House. begellhouse.com
• Chen, G., Prasad, V., Jaluria, Y. (2015). Annual Review of Heat Transfer Vol. 18. XVIII Danbury, CT, Begell House.
• Chen, G., Prasad, V., Jaluria, Y. (2014). Annual Review of Heat Transfer Vol. 17. XVII Danbury, CT, Begell House.
• Chen, G., Prasad, V., Jaluria, Y. (2013). Annual Review of Heat Transfer Vol. 16. XVI Danbury, CT, Begell House.
• Editor/Co-editor with Y. Jaluria (Rutgers) and G. Chen (MIT); (Founding Editor: C.-L. Tien). (2012). Annual Review of Heat Transfer Vol. 15. XV Danbury, CT, Begell House.
• , G., , Byrappa, K., Dudley, M. (2010). Springer Handbook of Crystal Growth. 1816. Springer-Verlag.
• Chen, G., Prasad, V., Jaluria, Y. (2005). Annual Review of Heat Transfer Vol. 14. XIV Danbury, CT, Begell House.
• Prasad, V. (2003). Annual Review of Heat Transfer Vol. 13. XIII Danbury, CT, Begell House.
• Tien, C., Prasad, V., Incropera, F. (2002). Annual Review of Heat Transfer Vol. 12. XII Danbury, CT, Begell House.

Book Chapter

• Dhanraj, G., K, B., Prasad, V., Dudley, M. (2010). Crystal Growth Techniques and Characterization: An Overview. Springer Handbook of Crystal Growth. 3-16. Heidelberg, Springer-Verlag.
• Editors: G. Dhanaraj, K. Byrappa, V. Prasad and M. Dudley. (2010). Models for Stress and Dislocation Generation in Melt Based Compound Crystal Growth. Springer Handbook of Crystal Growth. 1335-1378.
• Chen, Q.-S., Zhang, H., and Prasad, V.; ed. G.V. Karas. (2006). Physics and Modeling of Ammonothermal Growth of Gallium Nitride Single Crystals. Other. 151-169.
• Chen, Q. S., and Prasad, V.; K. Byrappa, T. Ohachi, H. Klapper and R. Fornari, eds.. (2003). "Modeling of Ammonothermal Growth of Nitrides and Applications," in Crystal Growth of Technologically Important Materials.
• Dhanaraj, G., Huang, X.-R., Dudley, M., Prasad, V., and Ma, R.; K. Byrappa and T. Ohachi, eds.. (2003). "Silicon Carbide Crystals" Part I: Growth and Characterization," in Crystal Growth for Modern Technology.
• Chen, Q. S., Prasad, V., Zhang, H., and Dudely, M.; K. Byrappa and T. Ohachi, eds.. (2003). "Silicon Carbide Crystals" Part II: Process Physics and Modeling," in Crystal Growth for Modern Technology.
• Dhanaraj, G., Dudley, M., Ma, R.H. , Zhang, H., and Prasad, V.; K. Byrappa, T. Ohachi, H. Klapper and R. Fornari, eds.. (2003). Growth and Characterization of SiC Single Crystals,.
• Mishra, D., Prasad, V., and Mukherjee, D.K.. (2003). Liquid Crystal Thermography : Application to Convection and Phase Change Problems. Annual Review of Heat Transfer. 13
• Zhang, H., and Prasad, V.; eds. J.S. Szmyd and K. Suzuki. (2000). "Modeling of High Pressure Liquid-Encapsulated Czochralski Processes," in Modelling of Transport Phenomena in Crystal Growth.

Conference Proceeding

• Bamido, A., Pyle, T., Thyagarajan, A., Dhir, V.K., Prasad, V., Banerjee, D. (2020). A Numerical Study of Forced Convective Heat Transfer Characteristics of Supercritical Fluid in a Horizontal Circular-Pipe. ASME.
• Loknath, M., Venkateshan, S., Prasad, B., Basu, B., Prasad, V. (2000). Heat and Mass Transfer 2000, Proceeding of the 4th ISHMT-ASME Heat and Mass Transfer Conference. New Delhi, Tata-McGraw Hill.

Journal Article

• Wang, G., Prasad, V. Unified, Integral Approach to Modeling and Design of High-Pressure Pipelines: Assessment of Various Flow and Temperature Models for Supercritical Fluids. ASME.
• Wang, G., Almara, L.M., Prasad, V. (2024). Thermodynamic Analysis of Anomalous Region, Critical Point, and Transitions from Subcritical to Supercritical State: Applications to van der Waals and Five Real Fluids. Denton, Physics of Fluids. Department of Mechanical Engineering
• Almara, L., Wang, G., Prasad, V. (2023). Thermophysical Properties of Hydrocarbons and Natural Gas for Pipeline Transport: Dense Phase and Anomalous Supercritical Conditions. Gas Science and Engineering. 117 (September) 20. Elsevier's.
• Prasad, V., Almara, L., Wang, G. (2023). Ultra-long-distance Transport of Supercritical Natural Gas (SNG) at Very High-Mass Flow Rates via Pipelines through Land, Underground, Water Bodies, and Ocean. Gas Science and Engineering. 117 17. Elsevier's.
• Prasad, V., Kakroo, K., Banerjee, D. (2022). Existence of Supercritical “Liquid-like” State in Subcritical Region, Optimal Heat Transfer Enhancement, and Argon as a Non-reacting, Non-corroding SC Heat Transfer Fluid. Heat Transfer Research. 53 (9) 1-27. Begell House.
• Zhu, P., Cheng, Q. S. , , V. (2021). Elastic-plastic Behaviors of Silicon Carbide Crystals. Materials Today. Elsevier.
• Choi, W., Prasad, V., Mehta, G., kim, j., lee, e. (2021). Asymmetric 2D MoS2 for Scalable and High-Performance Piezoelectric Sensors. ACS Applied Materials & Interfaces. ACS Publications.
• Cha, E., Patel, M., Bhoyate, S., Prasad, V., Choi, W. (2020). Nanoengineering to achieve high efficiency practical lithium-sulfur batteries. The Royal Society of Chemistry. (1:5(5)) 808-831. doi: 10.1039/c9nh00730j
• Cha, E., Patel, M.D., Park, J.G., Hwang, J., Prasad, V., Cho, K., Choi, W. (2018). 2D MoS2 as an efficient protective layer for lithium metal anodes in high-performance Li-S batteries.. Nature Nanotechnology.
• , Chen, Q., Jiang, Y., Yan, J., Li, W., Prasad, V. (2011). Modeling of ammonothermal growth processes of GaN crystal in large-size pressure systems. Other. 37 467-477.
• Jiang, Y., Chen, Q., Prasad, V. (2011). Numerical Simulation of Ammonothermal Growth Processes of GaN Crystals. Journal of Crystal Growth. 318 (1) 411-414.
• Roy, S., Vedala, H., Roy, A.D., Kim, D.H., Doud, M., Mathee, K., Shin, H.K., Shimamoto, N., Prasad, V., Choi, W. (2008). Direct electrical measurements on single-molecule genomic DNA using single-walled carbon nanotubes.. Nano Letters. 8 (1) 26-30.
• Chen, Q., Yan, J., Prasad, V. (2007). Application of flow-kinetics model to the PVT growth of SiC crystals. Journal of Crystal Growth. 303 (1) 357-361.
• Chen, Q., Deng, G., Ebadian, A., Prasad, V. (2007). Numerical Study on Flow Field and Temperature Distribution in Growth Process of 200 mm Czochralski Silicon Crystals. Other. 25 (2) 345-348.
• Pendurti, S., Jun, S., Lee, I., Prasad, V. (2006). Cooperative atomic motions and core rearrangement in dislocation cross slip. Applied Physics Letters. 88 (20) 201908.
• Chen, Q.S., Lu, J., Zhang, Z.-B., Wei, G.-D., and Prasad, V.. (2006). Growth of Silicon Carbide Bulk Crystals by Physical Vapor Transport Method and Modeling Efforts in the Process Optimization.
• Pendurti, S., Chen, Q., Prasad, V. (2006). Modeling ammonothermal growth of GaN single crystals: The role of transport. Journal of Crystal Growth. 296 (2) 150-158.
• Chen, Q.-S., Pendurti, S., and Prasad, V.. (2006). Modeling of Ammonothermal Growth of Gallium Nitride Single Crystals.
• Zhang, Z.-B., Lu, J., Chen, Q.-S., and Prasad, V.. (2006). Thermoelastic Stresses in SiC Single Crystals Grown by the Physical Vapor Transport Method.
• Mishra, D., Longtin, J., Singh, R., Prasad, V. (2005). Coherent gradient sensing interferometry: application in convective fluid medium for tomographic measurements. Experiments in Fluids. 38 (1) 59-69.
• Pendurti, S., Prasad, V., and Zhang, H.. (2005). Modeling Dislocation Generation in High Pressure Czochralski Growth of InP Crystals: Part 1, Construction of a Visco-Elastic Deformation Model. Modelling and Simulation in Materials Science and Engineering. 13 (2) 249.
• Pendurti, S., Prasad, V., and Zhang, H.. (2005). Modeling Dislocation Generation in High Pressure Czochralski Growth of InP Crystals: Part 2. Modelling and Simulation in Materials Science and Engineering. 13 (2) 267.
• Chen, Q.-S. , Wegrzyn, J., and Prasad, V.. (2004). Analysis of Temperature and Pressure Changes in Liquefied Natural Gas (LNG) Cryogenic Tanks.
• Dhanaraj, G., Dudley, M., Ma, R-H., Zhang, H,. and Prasad, V.. (2004). Design and Fabrication of Physical Vapor Transport System for the Growth of SiC Crystals.
• Chen, Q.-S., Pendurti, S., and Prasad, V.. (2004). Effects of Baffle Design on Fluid Flow and Heat Transfer in Ammonothermal Growth Systems of Nitrides.
• Wu, B., Ma, R., Zhang, H., and Prasad, V.. (2004). Modeling and Simulation of AlN Bulk Sublimation Growth Systems.
• D., M., Longtin, J., Singh, R., Prasad, V. (2004). Performance evaluation of iterative tomography algorithms for incomplete projection data. Applied Optics. 43 (7) 1522-1532.
• Dhanaraj, G., Dudley, M., Liu, F., Zhang, H., and Prasad, V.. (2004). PVT Growth of 6H SiC Crystals and Defect Characterization.
• Wang, G., Goswami, R., Sampath, S., Prasad, V. (2004). Understanding the heat transfer and solidification of plasma-sprayed yttria-partially stabilized zirconia coatings. Materials and Manufacturing Processes. 19 (2) 259-272.
• Wan, Y., Sampath, S., Prasad, V., Williamson, R., Fincke, J. (2003). An advanced model for plasma spraying of functionally graded materials. Journal of Materials Processing Technology. 137 (1) 110-116.
• Chen, Q.-S., Prasad, V., and Hu, W.R.. (2003). Modeling of Ammonothermal Growth of Nitrides.
• Ma, R., Zhang, H., Dudley, M., Prasad, V. (2003). Thermal system design and dislocation reduction for growth of wide band gap crystals: application to SiC growth. Journal of Crystal Growth. 258 (3) 318-330.
• Sahoo, R.K., and Prasad, V.. (2002). A Composite Adaptive Grid Generation and Migration Technique for Materials Processing Problems.
• Nunes, E. M., Naraghi, M. H. N., Zhang, H., and Prasad, V.. (2002). A Volume Radiation Heat Transfer Model for Czochralski Crystal Growth Processes.
• Sahoo, R.K., and Prasad, V.. (2002). Application of Composite Adaptive Grid Generation and Migration (CAGGM) Scheme for Phase-Change Materials Processes.
• Mishra D., Wong S. L., Longtin J. P., Singh R. P., and Prasad V.. (2002). Development of a Coherent Gradient-Sensing Tomographic Interferometer for Three-dimensional Refractive-index Based Measurements.
• Ma, R.-H., Zhang, H. , Prasad, V., and Dudley, M.. (2002). Growth Kinetics and Thermal Stress of Silicon Carbide.
• Wan, Y.P., Fincke, J.R., Sampath, S., Prasad, V., and Herman, H.. (2002). Modeling and Experimental Observation of Evaporation from Oxidizing Molybdenum Particles Entrained in a Thermal Plasma Jet.
• Wong S. L., Mishra D., Longtin J. P., Singh R. P. and Prasad V.. (2002). Visualization of Iso-Gradient Lines in Convective and Diffusive Systems using Gradient-Sensing Interferometry.
• Jafri, I., Chandra, M., Zhang, H., Prasad, V. Reddy, C., Amato-Wierda, C., Landry, M., and Ciszek, T. (2001). Enhanced Bulk Polysilicon production using silicon tubes.
• Chen, Q.-S., Zhang, H., Prasad, V., Balkas, C.M., Yushin, N.K. and Wang, S.. (2001). Kinetics and Modeling of Sublimation Growth of Silicon Carbide Bulk Crystals.
• Lutjen, P., Mishra, D., and Prasad, V.. (2001). Liquid Crystal Thermography and Scanning Flow Tomoscopy for Three-Dimensional Temperature Field Measurement.
• Wan, Y.P., Gupta, V., Deng, Q., Sampath, S., Prasad, V., Williamson, R., and Fincke, J.R.. (2001). Modeling and Visualizatoion of Plsama Spraying of FGMs and its Applications to Optimization of Spray Conditions.
• Wan, Y.P., J.R. Fincke, X.Y. Jiang, Sampath, S., Prasad, V., and Herman, H.. (2001). Modeling of Oxidation of Molybdenum Particles during Plasma Spray Deposition.
• Chen, Q.-S., Zhang, H., Ma, R.-H., Prasad, V., Balkas, C.M. and Yushin, N.K.. (2001). Modeling of Transport Processes and Kinetics of Silicon Carbide Bulk Growth.
• Wan, Y.P., Zhang, H., Jiang, X.Y., Sampath, S., and Prasad, V.. (2001). Role of Solidification, Substrate Temperature and Reynolds Number on Droplet Spreading in Thermal Spray Deposition: Measurements and Modeling.
• Wang, G.-X., and Prasad, V.; ed. C.-L. Tien. (2000). "Rapid Solidification: Fundamentals and Modeling," Annual Review of Heat Transfer.
• Chatterjee, A., and Prasad, V.. (2000). A Full Three-Dimensional Adaptive Finite Volume Scheme for Transport and Phase-Change Processes, Part I: Theory and Validation.
• Chatterjee, A., Prasad, V., and Sun, D.. (2000). A Full Three-Dimensional Adaptive Finite Volume Scheme for Transport and Phase-Change Processes, Part II: Application to Crystal Growth.
• Prasad, V., Chen, Q.S., and Zhang, H.. (2000). A Process Model for Silicon Carbide Growth by Physical Vapor Transport.
• Wang, G.X., Prasad, V., and Sampath, S.. (2000). An Integrated Model for Dendrite and Planar Interface Growth and Morphological Transition in Rapid Solidification.
• Bhagavat, M., Kao, I., and Prasad, V.. (2000). Elasto-Hydrodynamic Interaction in the Free Abrasive Wafer Slicing Using a Wiresaw: Modeling and Finite Element Analysis.
• Roy, A., Zhang, H., and Prasad, V.. (2000). Growth of Large Diameter Silicon Tube by EFG Technique: Modeling and Experiment.
• Chen, Q.-S., Zhang, H. and Prasad, V.. (2000). Heat Transfer and Kinetics of Bulk Growth of Silicon Carbide.
• Mishra, D., Lutjen, P., Chen, Q.-S., and Prasad, V.. (2000). Tomographic Reconstruction of Three-Dimensional Temperature Field using Liquid Crystal Scanning Thermography.
• Ferland, M., Mishra D., and Prasad, V.. (2000). Visualization of Solidification in a Simulated Czochralski System.
• Roy, A., Mackintosh, B., Kalejs, J. P., Chen, Q.-S., Zhang, H., Prasad, V.. (1999). A Numerical Model for Inductively Heated Cylindrical Silicon Tube Growth System.
• Chen, Q.S., Chatterjee, A., Prasad, V., and Larkin, J.. (1999). A Porous Media-Based Transport Model for Hydrothermal Growth.
• Wan, Y.P., Sampath, S., V. Prasad, Williamson, R., and Fincke, J.R.. (1999). An Advanced Model for Plasma Spraying of Functionally Graded Materials.
• Bliss, D., Bryant, G., Lancto, R., Zhao, J., Dudley, M., Prasad, V., and Zhang, H.. (1999). Dislocation Generation and Propagation Near the Seed-Crystal Interface During MLEC Crystal Growth OF Sulfur -Doped InP.
• Chen, Q.S., Hu, W.R., and Prasad, V.. (1999). Effect of Liquid Bridge Volume on the Instability in Small-Prandtl-Number Half Zones.
• Zou, Y.F., Wang, G.-X., Zhang, H., and Prasad, V.. (1999). Mechanisms of Thermal-Solutal Transport and Segregation in a High Pressure Liquid-Encapsulated Czochralski System.
• Chen, Q.S., Zhang, H., Prasad, V., Balkas C.M., and Yushin, N.K.. (1999). Modeling of Heat Transfer and Kinetics of Physical Vapor Transport Growth of Silicon Carbide Crystals.
• Ma, R. H., Chen, Q.-S., Zhang, H., Prasad, V., Balkas, C., and Yushin, N. K.. (1999). Modeling of Silicon Carbide Crystal Growth by Physical Vapor Transport Method.
• Zhang, H., Zheng, L.L., Prasad, V., and Hou, T.Y.. (1998). A Curvilinear Level set Formulation for Highly Deformable Free Surface Problems with Application to Solidification.
• Zhang. H., Zheng, L.-L., Prasad, V., and Larson, D. J., Jr.. (1998). Diameter Controlled Czochralski Growth of Silicon Crystal.
• Rudraiah, N., and Prasad, V.. (1998). Effect of Brinkman Boundary Layer on the Onset of Marangoni Convection in a Fluid-saturated Porous Layer.
• Zhang, H., Zheng, L.L., Prasad, V., and Larson, D.J.. (1998). Local and Global Simulations for Bridgman and Czochralski Growth.
• Chen, Q.S., Prasad, V., and Chatterjee, A.. (1998). Modeling of Fluid Flow and Heat Transfer in a Hydrothermal Crystal Growth System: Use of Fluid-Superposed Porous Layer Theory.
• Li, J., Kao, I., and Prasad, V.. (1998). Modeling of Stresses of Contacts in Wiresaw Slicing of Polycrystalline and Crystalline Ingots: Application to Silicon Wafer Production.
• Chung, H., Dudley, M., Larson, D.J., Hurle, D.T.J., Bliss, D. F., and Prasad, V.. (1998). The Mechanism of Growth-Twin Formation in Zincblende Crystals: New Insights from a Study of Magnetic Liquid-Encapsulated Kyropoulos Grown InP Single Crystals.
• Beg, O.A., Takhar, H.S., Soundalgekar, V.M., and Prasad, V.. (1998). Thermoconvective Flow in a Sarurated Porous Mediumusing Brinkman's Model: Numerical Study.
• 104. Zheng, L.L., Zhang, H., Larson, D.J., and Prasad, V.. (1998). Thermoelectric Interface Demarcation during Directional Solidification with Varying Gravitationally-dependent Buoyancy Convection.
• Sahoo, R.K., Prasad, V., Kao, I., Talbott, J., and Gupta, K. P.. (1998). Towards an Integrated Approach for Analysis and Design of Wafer Slicing by a Wire Saw.
• Zhang, T., Wang, G.X., Zhang, H., Ladeinde, F., and Prasad, V.. (1998). Turbulent Transport of Oxygen in the Czochralski Growth of Large Silicon Crystals.
• Zhang, H., and Prasad, V.. (1997). An Advanced Numerical Scheme for Materials Process Modeling.
• Wang, G.-X., Prasad, V., and Matthys, E.F.. (1997). An Interface Tracking Numerical Method for Rapid Planar Solidification of Binary Alloys with Application to Microsegregation.
• Chung, H., Si, W., Dudley, M., Bliss, D. F., Kalan, R., Maniatty, A., Zhang, H., and Prasad, V.. (1997). Characterization of Defect Structures in Magnetic Liquid-Encapsulated Kyropoulos Grown InP Single Crystals.
• Chung, H., Si, W., Dudley, M., Anselmo, A.P., Bliss, D. F., Maniatty, A., Zhang, H., and Prasad, V.. (1997). Characterization of Structural Defects in MLEK Grown InP Single Crystals Using Synchrotron White Beam X-ray Topography.
• Zou, Y.F., Wang, G.-X., Zhang, H., Prasad, V., Bliss, D.F.. (1997). Macrosegregation, Dynamics of Interface and Stresses in High Pressure LEC Grown Crystals.
• Wang, G.-X., and Prasad, V.. (1997). Non-equilibrium Phenomena in Rapid Solidification: Theoretical Treatment for Process Modeling.
• Wang, G.-X., Sampath, S., Prasad, V., and Herman, H.. (1997). On the Stability of Rapid Planar Solidification during Melt-Substrate Quenching.
• Chui, W., Glimm, J., Tangerman, F., Zhang, H., and Prasad, V.. (1997). Parallel Computations for Crystal Growth Modeling.
• Wang, G.-X., Prasad, V., and Matthys, E.F.. (1997). Solute Distribution during Rapid Solidification into an Undercooled Melt.
• Zhang, H., Prasad, V., Anselmo, A., Bliss, D.F., and Iseler, G.. (1997). Transport Phenomena in a High Pressure Crystal Growth System: In-situ Synthesis for InP Melt.
• Prasad, V., Zhang, H., and Anselmo, A.. (1997). Transport Phenomena in Crystal Growth Processes.
• Mukherjee, D.K., and Prasad, V.. (1997). Visualization of Transient Temperature Field in a Rotating System using Liquid Crystals.
• Zhang, H., Prasad, V., and Moallemi, K.. (1996). A Numerical Algorithm Using Multizone Adaptive Grid Generation for Multiphase Transport Processes with Moving and Free Boundaries.
• Fang, C.C., Prasad, V., Joshi, R.V., Jones, F., and Hsieh, J.J.; Eds. S. Rossnagel and A. Ulman. (1996). A Process Model for Sputter-Deposition of Thin Films Using Molecular Dynamics.
• Zou, Y.F., Zhang, H., and Prasad, V.. (1996). Dynamics of Melt-Crystal Interface and Thermal Stresses in Czochralski Grown Crystal.
• Anselmo, A., Koziol, J., and Prasad, V.. Full-Scale Experiments on Solid Pellets-Feed Continuous Czochralski Growth of Silicon Crystals.
• Mukherjee, D.K., Prasad, V., Dutta, P., and Yuan, T.. (1996). Liquid Crystal Visualization of the Effects of Crucible Rotation on CZ Melt Flows.
• Fang, C. C., Joshi, R. V., Prasad, V., and Ouyang, C.. (1996). Modeling of Intrinsic Stresses of Titanium Thin Films Deposited by Collimated Sputtering.
• Zhang, H., Prasad, V., and Bliss, D.F.. (1996). Transport Phenomena in High Pressure Crystal Growth Systems for III-V Compounds.
• Zhang, H., and Prasad, V.. (1995). A Multizone Adaptive Process Model for Low and High Pressure Crystal Growth Processes.
• Prasad, V., and Zhang, H.. (1995). Challenging Issues in Bulk Crystal growth Modeling.
• Jafri, I., Prasad, V., Anselmo, A., and Gupta, K.P.. (1995). Role of Crucible Partition in Improving Czochralski Melt Conditions.
• Prasad, V., Bliss, D. F., and Adamski, J. A.. (1994). Thermal Characterization of the HPCG System for In-Situ Synthesis and MLEK Growth of InP Single Crystals.
• Fang, C. C., Jones, F., and Prasad, V.. (1993). Effects of Gas Impurity and Ion Bombardment on Stresses in Sputter-Deposited Thin Films: A Molecular Dynamics Approach.
• Fang, C. C., Prasad, V., and Jones, F.. (1993). Molecular Dynamics Modeling of Microstructure and Stresses in Sputter-Deposited Thin Films.
• Anselmo, A., Prasad, V., Koziol, J., and Gupta, K. P.. (1993). Numerical and Experimental Study of a Solid-Pellet Feed Continuous Czochralski Growth Process for Silicon Single Crystals.
• Anselmo, A., Prasad, V., Koziol, J., and Gupta, K. P.. (1993). Oscillatory Convection in Low Aspect Ratio Czochralski Melts.
• Fang, C.C., Jones, F., Kola, R.R., Celler, G.K., and Prasad, V.. (1993). Stress and Microstructure of Sputter-Deposited Thin Films: Molecular Dynamics Simulations and Experiment.
• Elpidorou, G., Prasad, V., and Modi, V.. (1991). Convection in a Vertical Channel with a Finite Wall Heat Source.
• Kladias, N., and Prasad, V.. (1991). Experimental Verification of DBF Flow Model for Natural Convection in Porous Media: A Case Study for Horizontal Layers.
• Joshi, R., Prasad, V., and Yu, M.. (1991). Non-Self Limiting Nature of Silicon Reduction of WF6 in Cold Wall Systems.
• Kladias, N., and Prasad, V.. (1990). Flow Transitions in Buoyancy-Induced Non-Darcy Convection in Horizontal Porous Layers Heated From Below.
• Prasad, V., Keyhani, M., and Shen, R.. (1990). Free Convection in a Discretely Heated Vertical Enclosure: Effects of Prandtl Number and Cavity Size.
• Joshi, R.V., Prasad, V., Krusin-Elbaum, L., Yu. M., and Norcott, M.. (1990). Mechanisms Controlling Temperature Dependent Mechanical and Electrical Behavior of SiH4 Reduced Chemically Vapor Deposited W.
• Prasad, V., Kladias, N., Bandyopadhaya, A. and Tian, Q.. (1989). Evaluation of Correlation for Stagnant Thermal Conductivity of Liquid-Saturated Porous Beds of Spheres.
• Lauriat, G., and Prasad, V.. (1989). Non-Darcian Effects on Natural Convection in a Vertical Porous Enclosure.
• Prasad, V. and Chui, A.. (1989). Thermal Convection in a Cylindrical Porous Enclosure with Internal Heat Generation.
• F. C. Lai, Prasad, V., and Kulacki, F. A.. (1988). Aiding and Opposing Mixed Convection in a Vertical Porous Layer with a Finite Wall Heat Source.
• Keyhani, M., Prasad, V., and Cox, R.. (1988). An Experimental Study of Natural Convection in a Vertical Cavity with Discrete Heat Sources.
• Prasad, V., Lai, F. -C., and Kulacki, F A.. (1988). Mixed Convection in Horizontal Porous Layers Heated from Below.
• Kladias, N., and Prasad V.. (1988). Natural Convection in Horizontal Porous Layers: Effects of Darcy and Prandtl Numbers.
• El-Khatib, G., and Prasad, V.. (1987). Effects of Stratification on Thermal Convection in Horizontal Porous Layers with Localized Heating from Below.
• Prasad, V., and Tuntomo, A.. (1987). Inertia Effects on Natural Convection in a Vertical Porous Cavity.
• Prasad, V., and Kulacki, F. A.. (1987). Natural Convection in Horizontal Porous Layers with Localized Heating from Below.
• Lauriat, G., and Prasad, V.. (1987). Natural Convection in Vertical Porous Cavity - A Numerical Study of Brinkman-Extended Darcy Formulation.
• Prasad, V.. (1987). Thermal Convection in a Heat Generating, Darcy Porous Medium in a Rectangular Cavity.
• Keyhani, M., Prasad, V., and Kulacki, F. A.. (1986). An Approximate Analysis for Thermal Convection with Application to Vertical Annulus.
• Prasad, V., Kulacki, F. A., and Kulkarni, A. V.. (1986). Free Convection in a Vertical Porous Annulus with Constant Heat Flux on the Inner Wall - Experimental Results.
• Prasad, V.. (1986). Numerical Study of Natural Convection in a Vertical Porous Annulus with Constant Heat Flux on the Inner Wall.
• Prasad, V., and Kulacki, F. A.. (1985). Free Convection Heat Transfer in a Liquid-Filled Vertical Annulus.
• Prasad, V., Kulacki, F. A. and Keyhani, M.. (1985). Natural Convection in Porous Media.
• Prasad, V., and Kulacki, F. A.. (1985). Natural Convection in Porous Media Bounded by Short Concentric Vertical Cylinders.
• Prasad, V., and Kulacki, F. A.. (1984). Convective Heat Transfer in a Rectangular Porous Cavity-Effect of Aspect Ratio on Flow Structure and Heat Transfer.
• Prasad, V., and Kulacki, F. A.. (1984). Natural Convection in a Rectangular Porous Cavity with Constant Heat Flux on One Vertical Wall.
• Prasad, V., and Kulacki, F. A.. (1984). Natural Convection in a Vertical Porous Annulus.
• Prasad, V., and Jaluria, Y.. (1982). Transient film Condensation on a Finite Horizontal Plate.
• Prasad, V., and Jaluria, Y.. (1981). Film Condensation on a Horizontal Isothermal Surface.

Contracts, Grants and Sponsored Research

Grant - Research

• Prasad, V., Bostanci, H., Sadat, H., "Collaborative Research: Supercritical Fluids and Heat Transfer - Delineation of Anomalous Region, Ultra-long Distance Gas Transport without Recompression, and Thermal Management," sponsored by NSF, Federal, $370657 Funded. (2023 - 2026).
• Prasad, V. (Principal), Bostanci, H. (Co-Principal), "EAGER: Experimental Methods and Measurements of Anomalous Properties of Supercritical Fluids and their Mixtures," sponsored by NSF, Federal, $150000 Funded. (2022 - 2023).
• Prasad, V. (Principal), Bostanci, H. (Co-Principal), "EAGER: Experimental Methods and Measurements of Anomalous Properties of Supercritical Fluids and their Mixtures for Super-enhanced Heat Transfer and Innovative Thermal Management," sponsored by NSF, Federal, $150000 Funded. (2022 - 2023).
• Choi, W., Prasad, V. (Other), "High-Energy, High-Performance Li-S Battery with Novel 2D- & 3D-Nanostructured Electrodes," sponsored by Ark Power Tech Corporation/NAVAIR, Federal, $121998 Funded. (2022 - 2023).
• choi, w. (Principal), prasad, v. (Co-Principal), "High-Performance Li-S Battery with Novel 2D- & 3D-Nanostructured Electrodes,," sponsored by NAVAIR, State, $121998 Funded. (2021 - 2022).
• choi, w. (Principal), Prasad, V. (Other), "Integrated Flexible Energy System based on Two-Dimensional (2D) Materials," sponsored by US AFOSR, Federal, $300000 Funded. (2018 - 2021).
• Mishra, R.S. (Principal), Prasad, V. (Co-Principal), "Joining R3-3 FSW of Sealed Box Structures," sponsored by ALMMI, Private, $71738 Funded. (2018 - 2019).
• Prasad, V. (Principal), Dahotre, N.B. (Co-Principal), , H.L. (Co-Principal), Omary, M.A. (Co-Principal), Banerjee, R. (Co-Principal), Scharf, T.W. (Co-Principal), "Modernization of Multi-scale Characterization, Analysis, and Synthesis Facility for Materials and Devices: Remote Access, Visualization, and Public Engagement," sponsored by National Science Foundation, Federal, $1046053 Funded. (2010 - 2013).
• Sitar, Z. (Principal), Prasad, V. (Co-Principal), "MURI Research Center for Modeling, Growth and Characterization of III-Nitride," sponsored by ONR, Federal, $5000000 Funded. (2001 - 2006).
• Herman, H. (Principal), Sampath, S. (Co-Principal), Prasad, V. (Co-Principal), "Materials Research Science and Engineering Center (MRSEC): Novel Materials, Processes and Functional Surfaces by Thermal Spray," sponsored by National Science Foundation, Federal, $8743987 Funded. (1996 - 2006).
• Prasad, V. (Principal), Schoephoerster, R. (Co-Principal), "Partnership for Innovation (PFI): The Biomedical Engineering Partnership Program at FIU," sponsored by National Science Foundation, Federal, $599612 Funded. (2002 - 2005).
• Dudley, M. (Principal), Prasad, V. (Co-Principal), , H.Z. (Co-Principal), "Defect Nucleation during the PVT Growth of Silicon Carbide Single Crystals," sponsored by ONR, Federal, $430000 Funded. (2000 - 2003).
• Prasad, V., "Research on Vehicles Fueling Station for Compressed/Liquified Natural Gas," sponsored by DOE Brookhaven National Laboratory, Federal, $90000 Funded. (2001 - 2002).
• Longtin, J. (Principal), Dhadwal, H. (Co-Principal), Singh, R. (Co-Principal), Prasad, V. (Co-Principal), "Major Research Instrumentation Grant: Development of Coherent Gradient-Sensing Tomographic Interferometer: Application to 3D Transient Temperature, Concentration and Refractive Index Measurement," sponsored by National Science Foundation, Federal, $230000 Funded. (2000 - 2002).
• Larson, D. (Principal), Kao, I. (Co-Principal), Longtin, J. (Co-Principal), Dudley, M. (Co-Principal), Prasad, V., "Integrated Crystal Growth and Wafer Manufacturing Research Facility," sponsored by National Science Foundation, Federal, $1000000 Funded. (1998 - 2001).
• Prasad, V., "Integrated Intelligent Modeling, Design and Control of Crystal Growth Processes," sponsored by AFOSR and DARPA, Federal, $5000000 Funded. (1995 - 2000).
• Kao, I. (Principal), Chiang, F. (Co-Principal), Prasad, V. (Supporting), "Modeling and Control of Wire Saw Manufacturing," sponsored by National Science Foundation, Federal, $260000 Funded. (1996 - 1999).
• Prasad, V. (Principal), Koziol, J. (Co-Principal), "Continuous Czochralski Growth of Silicon Single Crystals," sponsored by National Science Foundation, Federal, $530642 Funded. (1991 - 1999).
• Prasad, V. (Principal), "Molecular Dynamics Simulation of Thin Film Deposition on Plane Substrates and in Vias," sponsored by National Science Foundation, Federal, $256342 Funded. (1993 - 1997).
• Prasad, V. (Principal), "Modeling of Stresses in Sputter-Deposited Thin Films," sponsored by IBM Corporation, Private, $90736 Funded. (1990 - 1993).
• Cane, M. (Principal), Prasad, V. (Co-Principal), Bluementhal, M. (Co-Principal), "Numerical Methods for Global Ocean Models," sponsored by National Science Foundation, Federal, $480000 Funded. (1990 - 1993).
• Prasad, V. (Principal), "Industry Internship: Characterization of Process Parameters for Continuous Czochralski Growth of Silicon Single Crystals," sponsored by National Science Foundation, Federal, $22111 Funded. (1990 - 1991).
• Prasad, V. (Principal), "NSF Internship: Summer Faculty Internship in Tribology," sponsored by National Science Foundation, Federal, $19995 Funded. (1987 - 1988).
• Prasad, V. (Principal), "Natural Convection in Horizontal Porous Layers - Effects of Porous Matrix Structure, Its Confinement and Thermophysical Properties," sponsored by National Science Foundation, Federal, $70000 Funded. (1985 - 1987).
• Mishra, R.S. (Principal), Prasad, V. (Co-Principal), "FSW of Sealed Box Structures (Joining R3-3)," sponsored by Amer Ltwt Mtrl Mfg Innovation Inst, NFP, Funded. (2018 - 2019).
• Prasad, V. (Principal), Dahotre, N. (Co-Principal), , H.L. (Co-Principal), Omary, M.A. (Co-Principal), Banerjee, R. (Co-Principal), Scharf, T.W. (Co-Principal), "Modernization of Multi-scale Characterization, Analysis, and Synthesis Facility for Materials and Devices: Remote Access, Visualization, and Public Engagement," sponsored by National Science Foundation, Federal, Funded. (2010 - 2013).

Sponsored Research

• D'Souza, N.A., Prasad, V., Tao, Y., Allen, M.S., "PFI: Farmer-Academic-Industry Partnership for the Development of Sustainable, Energy Efficient, Multifunctional Bioproducts for the Built Environment," sponsored by NSF, Federal, $600000 Funded. (2011 - 2015).