Gary Rosengarten
Gary Rosengarten
Professor of Mechanical Engineering, RMIT University
Verified email at
Cited by
Cited by
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
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
Spectral beam splitting for efficient conversion of solar energy—A review
A Mojiri, R Taylor, E Thomsen, G Rosengarten
Renewable and Sustainable Energy Reviews 28, 654-663, 2013
Transition metal oxides–Thermoelectric properties
S Walia, S Balendhran, H Nili, S Zhuiykov, G Rosengarten, QH Wang, ...
Progress in Materials Science 58 (8), 1443-1489, 2013
Nanofluid-based optical filter optimization for PV/T systems
RA Taylor, T Otanicar, G Rosengarten
Light: Science & Applications 1 (10), e34-e34, 2012
Pore architecture of diatom frustules: potential nanostructured membranes for molecular and particle separations
D Losic, G Rosengarten, JG Mitchell, NH Voelcker
Journal of nanoscience and nanotechnology 6 (4), 982-989, 2006
Highly efficient selective metamaterial absorber for high-temperature solar thermal energy harvesting
H Wang, VP Sivan, A Mitchell, G Rosengarten, P Phelan, L Wang
Solar Energy Materials and Solar Cells 137, 235-242, 2015
Liquid sodium versus Hitec as a heat transfer fluid in solar thermal central receiver systems
N Boerema, G Morrison, R Taylor, G Rosengarten
Solar energy 86 (9), 2293-2305, 2012
Micro‐and nanostructured surfaces for selective solar absorption
IE Khodasevych, L Wang, A Mitchell, G Rosengarten
Advanced Optical Materials 3 (7), 852-881, 2015
A review of thermal energy storage technologies and control approaches for solar cooling
S Pintaldi, C Perfumo, S Sethuvenkatraman, S White, G Rosengarten
Renewable and Sustainable Energy Reviews 41, 975-995, 2015
The potential of using nanofluids in PEM fuel cell cooling systems: A review
MR Islam, B Shabani, G Rosengarten, J Andrews
Renewable and Sustainable Energy Reviews 48, 523-539, 2015
Intelligent control of surface hydrophobicity
SL Gras, T Mahmud, G Rosengarten, A Mitchell, K Kalantar‐zadeh
ChemPhysChem 8 (14), 2036-2050, 2007
High temperature solar thermal central-receiver billboard design
N Boerema, G Morrison, R Taylor, G Rosengarten
Solar Energy 97, 356-368, 2013
A microfluidics device to monitor platelet aggregation dynamics in response to strain rate micro-gradients in flowing blood
FJ Tovar-Lopez, G Rosengarten, E Westein, K Khoshmanesh, ...
Lab on a Chip 10 (3), 291-302, 2010
Feasibility of nanofluid-based optical filters
RA Taylor, TP Otanicar, Y Herukerrupu, F Bremond, G Rosengarten, ...
Applied optics 52 (7), 1413-1422, 2013
Diatoms: self assembled silica nanostructures, and templates for bio/chemical sensors and biomimetic membranes
W Yang, PJ Lopez, G Rosengarten
Analyst 136 (1), 42-53, 2011
The numerical calculation of single-diode solar-cell modelling parameters
F Ghani, G Rosengarten, M Duke, JK Carson
Renewable Energy 72, 105-112, 2014
Spectral splitting strategy and optical model for the development of a concentrating hybrid PV/T collector
F Crisostomo, RA Taylor, D Surjadi, A Mojiri, G Rosengarten, ER Hawkes
Applied Energy 141, 238-246, 2015
Slug flow heat transfer without phase change in microchannels: A review
T Bandara, NT Nguyen, G Rosengarten
Chemical Engineering Science 126, 283-295, 2015
Nanofluids to improve the performance of PEM fuel cell cooling systems: A theoretical approach
MR Islam, B Shabani, G Rosengarten
Applied Energy 178, 660-671, 2016
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