Convective heat transfer in MHD slip flow over a stretching surface in the presence of carbon nanotubes RU Haq, S Nadeem, ZH Khan, NFM Noor Physica B: condensed matter 457, 40-47, 2015 | 226 | 2015 |
Heat and mass transfer of thermophoretic MHD flow over an inclined radiate isothermal permeable surface in the presence of heat source/sink NFM Noor, S Abbasbandy, I Hashim International Journal of Heat and Mass Transfer 55 (7-8), 2122-2128, 2012 | 169 | 2012 |
Simple non-perturbative solution for MHD viscous flow due to a shrinking sheet NFM Noor, SA Kechil, I Hashim Communications in Nonlinear Science and Numerical Simulation 15 (2), 144-148, 2010 | 148 | 2010 |
Thermocapillarity and magnetic field effects in a thin liquid film on an unsteady stretching surface NFM Noor, I Hashim International Journal of Heat and Mass Transfer 53 (9-10), 2044-2051, 2010 | 135 | 2010 |
Mixed convection stagnation flow of a micropolar nanofluid along a vertically stretching surface with slip effects NFM Noor, RU Haq, S Nadeem, I Hashim Meccanica 50, 2007-2022, 2015 | 126 | 2015 |
MHD squeezed flow of water functionalized metallic nanoparticles over a sensor surface RU Haq, S Nadeem, ZH Khan, NFM Noor Physica E: Low-dimensional Systems and Nanostructures 73, 45-53, 2015 | 99 | 2015 |
Numerical simulation of water based magnetite nanoparticles between two parallel disks RU Haq, NFM Noor, ZH Khan Advanced Powder Technology 27 (4), 1568-1575, 2016 | 78 | 2016 |
MHD flow and heat transfer in a thin liquid film on an unsteady stretching sheet by the homotopy analysis method NFM Noor, O Abdulaziz, I Hashim Int J Numer Methods Fluids, 2010 | 78 | 2010 |
Active and passive controls of nanoparticles in Maxwell stagnation point flow over a slipped stretched surface NA Halim, RU Haq, NFM Noor Meccanica 52, 1527-1539, 2017 | 76 | 2017 |
Further accuracy tests on Adomian decomposition method for chaotic systems O Abdulaziz, NFM Noor, I Hashim, MSM Noorani Chaos, Solitons & Fractals 36 (5), 1405-1411, 2008 | 72 | 2008 |
Active and passive controls of the Williamson stagnation nanofluid flow over a stretching/shrinking surface NA Halim, S Sivasankaran, NFM Noor Neural Computing and Applications 28 (1), 1023–1033, 2017 | 57 | 2017 |
Exact solutions of an unsteady thermal conductive pressure driven peristaltic transport with temperature-dependent nanofluid viscosity NS Akbar, EN Maraj, NFM Noor, MB Habib Case Studies in Thermal Engineering 35, 102124, 2022 | 50 | 2022 |
Analysis for MHD flow of a Maxwell fluid past a vertical stretching sheet in the presence of thermophoresis and chemical reaction NFM Noor World Acad. Sci., Eng. Technol 64, 1019-1023, 2012 | 49 | 2012 |
Novel dynamics of wave solutions for Cahn–Allen and diffusive predator–prey models using MSE scheme MS Ullah, MZ Ali, NFM Noor Partial Differential Equations in Applied Mathematics 3, 100017, 2021 | 43 | 2021 |
Homotopy analysis method for fully developed MHD micropolar fluid flow between vertical porous plates O Abdulaziz, NFM Noor, I Hashim International Journal for Numerical Methods in Engineering 78 (7), 817-827, 2009 | 41 | 2009 |
Heat flux performance in a porous medium embedded Maxwell fluid flow over a vertically stretched plate due to heat absorption NFM Noor, RU Haq, S Abbasbandy, I Hashim J Nonlinear Sci Appl 9 (5), 2986-3001, 2016 | 39 | 2016 |
Mixed convection flow of Powell-Eyring nanofluid near a stagnation point along a vertical stretching sheet NA Halim, NFM Noor Mathematics 9 (4), 364, 2021 | 37 | 2021 |
MHD flow and heat transfer adjacent to a permeable shrinking sheet embedded in a porous medium NFM Noor, I Hashim Sains Malaysiana 38 (4), 559-565, 2009 | 36 | 2009 |
Free convective MHD peristaltic flow of a Jeffrey nanofluid with convective surface boundary condition: A biomedicine-nano model NFMN Noreen Sher Akbar, Sohail Nadeem Current Nanoscience 10, 432-440, 2014 | 35 | 2014 |
Non-linear radiation effects in mixed convection stagnation point flow along a vertically stretching surface ST Hussain, R Ul Haq, NFM Noor, S Nadeem International Journal of Chemical Reactor Engineering 15 (1), 20150177, 2017 | 32 | 2017 |