Ravi Prasher
Ravi Prasher
Lawrence Berkeley National Laboratory & University of California at Berkeley
Verified email at - Homepage
Cited by
Cited by
Thermal conductivity of nanoscale colloidal solutions (nanofluids)
R Prasher, P Bhattacharya, PE Phelan
Physical review letters 94 (2), 025901, 2005
Nanofluid-based direct absorption solar collector
TP Otanicar, PE Phelan, RS Prasher, G Rosengarten, RA Taylor
Journal of renewable and sustainable energy 2 (3), 2010
Measurements of nanofluid viscosity and its implications for thermal applications
R Prasher, D Song, J Wang, P Phelan
Applied physics letters 89 (13), 2006
Thermal interface materials: historical perspective, status, and future directions
R Prasher
Proceedings of the IEEE 94 (8), 1571-1586, 2006
Small particles, big impacts: A review of the diverse applications of nanofluids
R Taylor, S Coulombe, T Otanicar, P Phelan, A Gunawan, W Lv, ...
Journal of applied physics 113 (1), 2013
On-chip cooling by superlattice-based thin-film thermoelectrics
I Chowdhury, R Prasher, K Lofgreen, G Chrysler, S Narasimhan, ...
Nature nanotechnology 4 (4), 235-238, 2009
Predicted efficiency of a low-temperature nanofluid-based direct absorption solar collector
H Tyagi, P Phelan, R Prasher
Effect of aggregation kinetics on the thermal conductivity of nanoscale colloidal solutions (nanofluid)
R Prasher, PE Phelan, P Bhattacharya
Nano letters 6 (7), 1529-1534, 2006
Brownian-motion-based convective-conductive model for the effective thermal conductivity of nanofluids
R Prasher, P Bhattacharya, PE Phelan
Nanofluid optical property characterization: towards efficient direct absorption solar collectors
RA Taylor, PE Phelan, TP Otanicar, R Adrian, R Prasher
Nanoscale research letters 6, 1-11, 2011
Enhanced mass transport in nanofluids
S Krishnamurthy, P Bhattacharya, PE Phelan, RS Prasher
Nano letters 6 (3), 419-423, 2006
Effect of aggregation and interfacial thermal resistance on thermal conductivity of nanocomposites and colloidal nanofluids
W Evans, R Prasher, J Fish, P Meakin, P Phelan, P Keblinski
International Journal of Heat and Mass Transfer 51 (5-6), 1431-1438, 2008
Effect of aggregation on thermal conduction in colloidal nanofluids
R Prasher, W Evans, P Meakin, J Fish, P Phelan, P Keblinski
Applied physics letters 89 (14), 2006
Thermal challenges in next-generation electronic systems
SV Garimella, AS Fleischer, JY Murthy, A Keshavarzi, R Prasher, C Patel, ...
IEEE Transactions on Components and Packaging Technologies 31 (4), 801-815, 2008
Thermal conductance of nanofluids: is the controversy over?
P Keblinski, R Prasher, J Eapen
Journal of Nanoparticle research 10, 1089-1097, 2008
Applicability of nanofluids in high flux solar collectors
RA Taylor, PE Phelan, TP Otanicar, CA Walker, M Nguyen, S Trimble, ...
Journal of Renewable and Sustainable Energy 3 (2), 2011
Brownian dynamics simulation to determine the effective thermal conductivity of nanofluids
P Bhattacharya, SK Saha, A Yadav, PE Phelan, RS Prasher
Journal of Applied Physics 95 (11), 6492-6494, 2004
Increased hot-plate ignition probability for nanoparticle-laden diesel fuel
H Tyagi, PE Phelan, R Prasher, R Peck, T Lee, JR Pacheco, P Arentzen
Nano letters 8 (5), 1410-1416, 2008
Turning carbon nanotubes from exceptional heat conductors into insulators
RS Prasher, XJ Hu, Y Chalopin, N Mingo, K Lofgreen, S Volz, F Cleri, ...
Physical Review Letters 102 (10), 105901, 2009
Closed-loop electroosmotic microchannel cooling system for VLSI circuits
L Jiang, J Mikkelsen, JM Koo, D Huber, S Yao, L Zhang, P Zhou, ...
IEEE Transactions on components and packaging technologies 25 (3), 347-355, 2002
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