I am Dr. Muhammad Waqas, an Assistant Professor in the NUTECH School of Applied Sciences and Humanities (NUSASH) at NUTECH University. With over nine years of experience in academia and research, my work centers on fluid mechanics, particularly involving nanofluids, heat and mass transfer, and boundary layer flows in both Newtonian and non-Newtonian fluids. My focus is on exploring the role of boundary layer stretching flows in advancing mathematical modeling and analyzing the behavior of nonlinear rheological fluids. I focus on teaching by building a solid theoretical foundation for students and enhancing their practical
Assistant Professor, NUSASH, (2019–Present)
Lecturer of Mathematics, Govt. Gordon College Rawalpindi (2012–2014)
Teaching Assistant, Department of Mathematics, QAU (2015–2016)
Visiting Faculty Member in Different Department of QAU (2016–2018)
I have published over 270 peer-reviewed papers in top-tier journals, such as Computer Methods in Applied Mechanics and Engineering, Chinese Journal of Physics, International Journal of Hydrogen Energy, International Journal of Heat and Mass Transfer, Applied Mathematics and Mechanics, Neural Computing and Application and many others
I have taught a variety of undergraduate and graduate-level courses of Mathematics in various Departments. Below are the courses I have been involved in teaching:
My research work centers on fluid mechanics, particularly involving nanofluids, heat and mass transfer, and boundary layer flows in both Newtonian and non-Newtonian fluids. My focus is on exploring the role of boundary layer stretching flows in advancing mathematical modeling and analyzing the behavior of nonlinear rheological fluids
Publications
1. Mixed convection radiative flow of Maxwell fluid near a stagnation point with convective condition.
Authors: T. Hayat, M. Waqas, S. A. Shehzad and A. Alsaedi
Journal of Mechanics, 29 (2013) 403-409.
Impact Factor: 1.455
2. Effects of Joule heating and thermophoresis on the stretched flow with convective boundary conditions.
Authors: T. Hayat, M. Waqas, S. A. Shehzad and A. Alsaedi
Scientia Iranica B, 21 (2014) 682-692.
Impact Factor: 1.416.
3. MHD stagnation point flow of Jeffrey fluid by a radially stretching surface with viscous dissipation and Joule heating.
Authors: T. Hayat, M. Waqas, S. A. Shehzad and A. Alsaedi
Journal of Hydrology and Hydromechanics, 63 (2015) 311-317.
Impact Factor: 2.329.
4. A model of solar radiation and Joule heating in magnetohydrodynamic (MHD) convective flow of thixotropic nanofluid.
Authors: T. Hayat, M. Waqas, S. A. Shehzad and A. Alsaedi
Journal of Molecular Liquids, 215 (2016) 704-710.
Impact Factor: 6.633.
5. Flow and heat transfer over an unsteady stretching sheet in a micropolar fluid with convective boundary condition.
Authors: S. A. Shehzad, M. Waqas, A. Alsaedi, and T. Hayat
Journal of Applied Fluid Mechanics, 9 (2016) 1437-1445.
Impact Factor: 1.152.
6. Mixed convection flow of viscoelastic nanofluid by a cylinder with variable thermal conductivity and heat source/sink.
Authors: T. Hayat, M. Waqas, S. A. Shehzad and A. Alsaedi
International Journal of Numerical Methods for Heat and Fluid Flow, 26 (2016) 214-234.
Impact Factor: 5.181.
7. Cattaneo-Christov heat flux model for flow of variable thermal conductivity generalized Burgers fluid.
Authors: M. Waqas, T. Hayat, M. Farooq and A. Alsaedi
Journal of Molecular Liquids, 220 (2016) 642-648.
Impact Factor: 6.633.
8. Impact of Cattaneo-Christov heat flux model in flow of variable thermal conductivity fluid over a variable thicked surface.
Authors: T. Hayat, M. I. Khan, M. Farooq, M. Waqas, A. Alsaedi and T. Yasmeen
International Journal of Heat and Mass Transfer, 99 (2016) 702-710.
Impact Factor: 5.431.
9. MHD stagnation point flow of viscoelastic nanofluid with non-linear radiation effects.
Authors: M. Farooq, M. I Khan, M. Waqas, T. Hayat, A. Alsaedi and M. I Khan
Journal of Molecular Liquids, 221 (2016) 1097-1103.
Impact Factor: 6.633.
10. Mixed convection flow of a Burgers nanofluid in the presence of stratifications and heat generation/absorption.
Authors: T. Hayat, M. Waqas, S. A. Shehzad and A. Alsaedi
The European Physical Journal Plus, 131 (2016) 253.
Impact Factor: 3.758.
11. Magnetohydrodynamic (MHD) mixed convection flow of micropolar liquid due to nonlinear stretched sheet with convective condition.
Authors: M. Waqas, M. Farooq, M. I. Khan, A. Alsaedi, T. Hayat and T. Yasmeen
International Journal of Heat and Mass Transfer, 102 (2016) 766-772.
Impact Factor: 5.431.
12. MHD flow of Jeffrey liquid due to a nonlinear radially stretched sheet in presence of Newtonian heating.
Authors: T. Hayat, G. Bashir, M. Waqas and A. Alsaedi
Results in Physics 6 (2016) 817-823.
Impact Factor: 4.565.
13. Viscous dissipation effect in flow of magnetonanofluid with variable properties.
Authors: T. Hayat, M. Khan, M. Waqas, T. Yasmeen and A. Alsaedi
Journal of Molecular Liquids, 222 (2016) 47-54.
Impact Factor: 6.633.
14. Analysis of thixotropic nanomaterial in a doubly stratified medium considering magnetic field effects.
Authors: T. Hayat, M. Waqas, M. I Khan and A. Alsaedi
International Journal of Heat and Mass Transfer, 102 (2016) 766-772.
Impact Factor: 5.431.
15. On model of Burgers fluid subject to magneto nanoparticles and convective conditions.
Authors: T. Hayat, M. Waqas, S. A. Shehzad and A. Alsaedi
Journal of Molecular Liquids, 222 (2016) 181-187.
Impact Factor: 6.633.
16. Stagnation point flow towards nonlinear stretching surface with Cattaneo-Christov heat flux.
Authors; T. Hayat, M. Zubair, M.Ayub, M. Waqas and A. Alsaedi
The European Physical Journal Plus, 131 (2016) 355.
Impact Factor: 3.758.
17. On 2D stratified flow of an Oldroyd-B fluid with chemical reaction: An Application of non-Fourier heat flux theory.
Authors: T. Hayat, M. Waqas, S. A. Shehzad and A. Alsaedi
Journal of Molecular Liquids, 223 (2016) 566-571.
Impact Factor: 6.633.
18. MHD 2D flow of Williamson nanofluid over a nonlinear variable thicked surface with melting heat transfer.
Authors: T. Hayat, G. Bashir, M. Waqas and A. Alsaedi
Journal of Molecular Liquids, 223 (2016) 836-844.
Impact Factor: 6.633.
19. Similarity transformation approach for ferromagnetic mixed convection flow in the presence of chemically reactive magnetic dipole.
Authors; T. Hayat, M. I. Khan, M. Imtiaz, A. Alsaedi and M. Waqas
Physics of Fluids, 28 (2016) 102003.
Impact Factor: 4.98.
20. Chemically reactive flow of third grade fluid by an exponentially convected stretching sheet.
Authors: T. Hayat, M. Waqas, S. A. Shehzad and A. Alsaedi
Journal of Molecular Liquids, 223 (2016) 853-860.
Impact Factor: 6.633.
21. Radiative flow of a tangent hyperbolic fluid with convective conditions and chemical reaction.
Authors: T. Hayat, S. Qayyum, B. Ahmed and M. Waqas
The European Physical Journal Plus, 131 (2016) 422.
Impact Factor: 3.758.
22. Thermally radiative stagnation point flow of Maxwell nanofluid due to unsteady convectively heated stretched surface.
Authors: T. Hayat, S. Qayyum, M. Waqas and A. Alsaedi
Journal of Molecular Liquids, 224 (2016) 801-810.
Impact Factor: 6.633.
23. Stretched flow of Carreau nanofluid in presence of convective boundary condition.
Authors: T. Hayat, M. Waqas, S. A. Shehzad and A. Alsaedi
Pramana Journal of Physics, 86 (2016) 3-17.
Impact Factor: 2.699.
24. Simultaneous influences of mixed convection and nonlinear thermal radiation in stagnation point flow of Oldroyd-B fluid towards an unsteady convectively heated stretched surface.
Authors: T. Hayat, S. Qayyum, A. Alsaedi and M. Waqas
Journal of Molecular Liquids, 224 (2016) 811-817.
Impact Factor: 6.633.
25. A comparative study of Casson fluid with homogeneous-heterogeneous reactions.
Authors: M. I. Khan, M. Waqas, T. Hayat and A. Alsaedi
Journal of Colloid and Interface Science, 498 (2017) 85-90.
Impact Factor: 9.965.
26. Impacts of constructive and destructive chemical reactions in magnetohydrodynamic (MHD) flow of Jeffrey liquid due to nonlinear radially stretched surface.
Authors: T. Hayat, M. Waqas, M. Khan and A. Alsaedi
Journal of Molecular Liquids, 225 (2017) 302-310.
Impact Factor: 6.633.
27. Application of non-Fourier heat flux theory in thermally stratified flow of second grade liquid with variable properties.
Authors T. Hayat, M. Zubair, M. Waqas, M. Ayub and A. Alsaedi
Chinese Journal of Physics, 55 (2017) 230-241.
Impact Factor: 3.957.
28. Magnetohydrodynamic (MHD) stretched flow of tangent hyperbolic nanoliquid with variable thickness.
Authors: T. Hayat, M. Waqas, A. Alsaedi, G. Bashir and F. Alzahrani
Journal of Molecular Liquids, 229 (2017) 178-184.
Impact Factor: 6.633.
29. On doubly stratified chemically reactive flow of Powell--Eyring liquid subject to non-Fourier heat flux theory
Authors T. Hayat, M. Zubair, M. Waqas, A. Alsaedi and M. Ayub
Results in Physics, 7 (2017) 99-106.
Impact Factor: 4.565.
30. Outcome for chemically reactive aspect in flow of tangent hyperbolic material.
Authors: M. I. Khan, T. Hayat, M. Waqas and A. Alsaedi
Journal of Molecular Liquids, 230 (2017) 143-151.
Impact Factor: 6.633.
31. Newtonian heating effect in nanofluid flow by a permeable cylinder.
Authors: T. Hayat, M. I. Khan, M. Waqas and A. Alsaedi
Results in Physics, 7 (2017) 256-262.
Impact Factor: 4.565.
32. Mixed convection stagnation-point flow of Powell-Eyring fluid with Newtonian heating, thermal radiation and heat generation/absorption.
Authors: T. Hayat, M. Waqas, S. A. Shehzad and A. Alsaedi
Journal of Aerospace Engineering, 30 (2017) 04016077.
Impact Factor: 2.242
33. Effectiveness of magnetic nanoparticles in radiative flow of Eyring-Powell fluid.
Authors: T. Hayat, M. I. Khan, M. Waqas and A. Alsaedi
Journal of Molecular Liquids, 231 (2017) 126-133.
Impact Factor: 6.633.
34. Magnetohydrodynamic flow of burgers fluid with heat source and power law heat flux.
Authors: T. Hayat, M. Waqas, M. I. Khan, A. Alsaedi and S. A. Shehzad
Chinese Journal of Physics, 55 (2017) 318-330.
Impact Factor: 3.957.
35. On Cattaneo-Christov heat flux in the flow of variable thermal conductivity Eyring-Powell fluid.
Authors: T. Hayat, M. I. Khan, M. Waqas and A. Alsaedi
Results in Physics, 7 (2017) 446-450.
Impact Factor: 4.565.
36. Impact of heat generation/absorption and homogeneous-heterogeneous reactions on flow of Maxwell fluid.
Authors: M. I. Khan, T. Hayat, M. Waqas, M. I. Khan and A. Alsaedi
Journal of Molecular Liquids, 233 (2017) 465-470.
Impact Factor: 6.633.
37. Magnetohydrodynamic flow of Casson fluid over a stretching cylinder.
Authors: M. Tamoor, M. Waqas, M. I. Khan, A. Alsaedi and T. Hayat
Results in Physics, 7 (2017) 498-502.
Impact Factor: 4.565.
38. Mathematical modeling of non-Newtonian fluid with chemical aspects: A new formulation and results by numerical technique.
Authors: T. Hayat, M. I. Khan, M. Waqas and A. Alsaedi
Colloids and Surfaces A: Physicochemical and Engineering Aspects 518 (2017) 263-272.
Impact Factor: 5.518.
39. Impact of variable thermal conductivity in doubly stratified chemically reactive flow subject to non-Fourier heat flux theory.
Authors T. Hayat, M. Zubair, M. Waqas, A. Alsaedi and M. Ayub
Journal of Molecular Liquids 234 (2017) 444-451.
Impact Factor: 6.633.
40. Numerical simulation of heat transfer in MHD stagnation point flow of Cross fluid model towards a stretched surface.
Authors: T. Hayat, M. I. Khan, M. Tamoor, M. Waqas and A. Alsaedi
Results in Physics, 7 (2017) 1824-1827.
Impact Factor: 4.565.
41. Numerical simulation for melting heat transfer and radiation effects in stagnation point flow of carbon-water nanofluid.
Authors: T. Hayat, M. I. Khan, M. Waqas, A. Alsaedi and M. Farooq
Computer Methods in Applied Mechanics and Engineering, 315 (2017) 1011-1024.
Impact Factor: 6.588.
42. Radiative flow of micropolar nanofluid accounting thermophoresis and Brownian moment.
Authors: T. Hayat, M. I. Khan, M. Waqas, A. Alsaedi and M. I. Khan
International Journal of Hydrogen Energy, 42 (2017) 16821-16833.
Impact Factor: 7.139.
43. Importance of chemical reactions in flow of Walter-B liquid subject to non-Fourier flux modeling.
Authors: T. Hayat, M. Zubair, M. Waqas, A. Alsaedi and M. Ayub
Journal of Molecular Liquids, 238 (2017) 229-235.
Impact Factor: 6.633.
44. Radiative flow of hyperbolic tangent liquid subject to Joule heating.
Authors: T. Hayat, M. I. Khan, M. Waqas and A. Alsaedi
Results in Physics, 7 (2017) 2197-2203.
Impact Factor: 4.565.
45. Numerical simulation of nonlinear thermal radiation and homogeneous-heterogeneous reactions in convective flow by a variable thicked surface.
Authors: M. I. Khan, M. Waqas, T. Hayat, M. I. Khan and A. Alsaedi
Journal of Molecular Liquids, 246 (2017) 259-267.
Impact Factor: 6.633.
46. Diffusion of chemically reactive species in third grade fluid flow over an exponentially stretching sheet considering magnetic field effects.
Authors: T. Hayat, M. I. Khan, M. Waqas, A. Alsaedi and T. Yasmeen
Chinese Journal of Chemical Engineering, 25 (2017) 257-263.
Impact Factor: 3.898.
47. Importance of Darcy-Forchheimer relation in chemically reactive radiating flow towards convectively heated surface.
Authors: M. A. Sadiq, M. Waqas and T. Hayat
Journal of Molecular Liquids, 248 (2017) 1071-1077.
Impact Factor: 6.633.
48. Stratified flow of an Oldroyd-B nanoliquid with heat generation.
Authors: M. Waqas, M. I. Khan, T. Hayat and A. Alsaedi
Results in Physics, 7 (2017) 2489-2496.
Impact Factor: 4.565.
49. Mixed convective stagnation point flow of Carreau fluid with variable properties.
Authors: M. Waqas, A. Alsaedi, S. A. Shehzad, T. Hayat and S. Asghar
Journal of the Brazilian Society of Mechanical Sciences and Engineering 39 (2017) 3005-3017.
Impact Factor: 2.361.
50. Nonlinear thermal radiation in flow induced by a slendering surface accounting thermophoresis and Brownian diffusion.
Authors: M. Waqas, M. I. Khan, T. Hayat, A. Alsaedi and M. I. Khan
The European Physical Journal Plus, 132 (2017) 280.
Impact Factor: 3.758.
51. Stagnation point flow of hyperbolic tangent fluid with Soret-Dufour effects.
Authors: T. Hayat, M. I. Khan, M. Waqas and A. Alsaedi
Results in Physics, Volume 7 (2017) 2711-2717.
Impact Factor: 4.565.
52. Chemically reactive flow of upper-convected Maxwell fluid with Cattaneo--Christov heat flux model.
Authors: M. I. Khan, M. Waqas, T. Hayat, M. I. Khan and A. Alsaedi
Journal of the Brazilian Society of Mechanical Sciences and Engineering 39 (2017) 4571-4578.
Impact Factor: 2.361.
53. Magnetohydrodynamic (MHD) stagnation point flow of Casson fluid over a stretched surface with homogeneous-heterogeneous reactions.
Authors: M. I. Khan, M. Waqas, T. Hayat and A. Alsaedi
Journal of Theoretical and Computational Chemistry, 16 (2017) 1750022.
Impact Factor: 0.939.
54. Theoretical investigation of the doubly stratified flow of an Eyring-Powell nanomaterial via heat generation/absorption.
Authors: M. I. Khan, M. Waqas, A. Alsaedi, T. Hayat and M. I. Khan
The European Physical Journal Plus 132 (2017) 489.
Impact Factor: 3.758.
55. The onset of modified Fourier and Fick's theories in temperature-dependent conductivity flow of micropolar liquid.
Authors: M. Zubair, M. Waqas, T. Hayat, M. Ayub and A. Alsaedi
Results in Physics, 7 (2017) 3145-3152.
Impact Factor: 4.565.
56. Significance of nonlinear radiation in mixed convection flow of magneto Walter-B nanoliquid.
Authors: M. I. Khan, M. Waqas, T. Hayat, A. Alsaedi and M. I. Khan
International Journal of Hydrogen Energy, 42 (2017) 26408-26416.
Impact Factor: 7.139.
57. Chemically reactive flow of micropolar fluid accounting viscous dissipation and Joule heating.
Authors: M. I. Khan, M. Waqas, T. Hayat and A. Alsaedi
Results in Physics, 7 (2017) 3706-3715.
Impact Factor: 4.565.
58. Numerical simulation for magneto Carreau nanofluid model with thermal radiation: A revised model.
Authors: M. Waqas, M. I. Khan, T. Hayat and A. Alsaedi
Computer Methods in Applied Mechanics and Engineering, 324 (2017) 640-653.
Impact Factor: 6.588.
59. Influence of thermal radiation and chemical reaction in mixed convection stagnation point flow of Carreau fluid.
Authors: T. Hayat, S. Qayyum, M. Waqas and A. Alsaedi
Results in Physics, 7 (2017) 4058-4064.
Impact Factor: 4.565.
60. Chemically reactive flow of Maxwell fluid due to variable thicked surface.
Authors: M. I. Khan, M. I. Khan, M. Waqas, T. Hayat and A. Alsaedi
International Communications in Heat and Mass Transfer, 86 (2017) 231-238.
Impact Factor: 6.782.
61. Mechanism of chemical aspect in ferromagnetic flow of second grade liquid.
Authors: T. Hayat, M. I. Khan, A. Alsaedi and M. Waqas
Results in Physics, 7 (2017) 4162-4167.
Impact Factor: 4.565.
62. On the performance of heat absorption/generation and thermal stratification in mixed convective flow of an Oldroyd-B fluid.
Authors: T. Hayat, M. I. Khan, M. Waqas and A. Alsaedi
Nuclear Engineering and Technology, 49 (2017) 1645-1653.
Impact Factor: 2.817.
63. Soret and Dufour effects in stretching flow of Jeffrey fluid subject to Newtonian heat and mass conditions.
Authors: M. I. Khan, M. Waqas, T. Hayat and A. Alsaedi
Results in Physics, 7 (2017) 4183-4188.
Impact Factor: 4.565.
64. On Cattaneo-Christov double diffusion impact for temperature-dependent conductivity of Powell--Eyring liquid.
Authors: M. Waqas, M. I. Khan, T. Hayat, A. Alsaedi and M. I. Khan
Chinese Journal of Physics, 55 (2017) 729-737.
Impact Factor: 3.957.
65. Homotopic solutions for stagnation point flow of third-grade nanoliquid subject to magnetohydrodynamics.
Authors: T. Hayat, H. Khalid, M. Waqas and A. Alsaedi
Results in Physics, 7 (2017) 4310-4317.
Impact Factor: 4.565
66. Behavior of stratification phenomenon in flow of Maxwell nanomaterial with motile gyrotactic microorganisms in the presence of magnetic field.
Authors: M. I. Khan, M. Waqas, T. Hayat, M. I. Khan and A. Alsaedi
International Journal of Mechanical Sciences, 131-132 (2017) 426-434.
Impact Factor: 6.772.
67. MHD stagnation point flow accounting variable thickness and slip conditions.
Authors: M. W. A. Khan, M. Waqas, M. I. Khan, A. Alsaedi and T. Hayat
Colloid and Polymer Science, 295 (2017) 1201-1209.
Impact Factor: 2.434.
68. Three-dimensional mixed convection flow of Sisko nanoliquid.
Authors: T. Hayat, I. Ullah, A. Alsaedi, M. Waqas and B. Ahmad
International Journal of Mechanical Sciences, 133 (2017) 273-282.
Impact Factor: 6.772.
69. Entropy generation minimization (EGM) in nonlinear mixed convective flow of nanomaterial with Joule heating and slip condition.
Authors: M. I. Khan, T. Hayat, M. Waqas, M. I. Imran and A. Alsaedi
Journal of Molecular Liquids, 256 (2018) 108-120.
Impact Factor: 6.633.
70. Unsteady stagnation point flow of Oldroyd-B nanofluid with heat generation/absorption and nonlinear thermal radiation.
Authors: T. Hayat, S. Qayyum, M. Waqas and A. Alsaedi
Journal of the Brazilian Society of Mechanical Sciences and Engineering, 40 (2018) 84.
Impact Factor: 2.361.
71. Entropy generation minimization and binary chemical reaction with Arrhenius activation energy in MHD radiative flow of nanomaterial.
Authors: M. I. Khan, S. Qayyum, T. Hayat, M. Waqas, M. I. Khan and A. Alsaedi
Journal of Molecular Liquids, 259 (2018) 274-283.
Impact Factor: 6.633.
72. Nonlinear convection flow of micropolar liquid: an application of improved Fourier's expression.
Authors: T. Hayat, M. Zubair, M. Waqas, M. Ayub and A. Alsaedi
Journal of the Brazilian Society of Mechanical Sciences and Engineering, 40 (2018) 99.
Impact Factor: 2.361.
73. Analysis of forced convective modified Burgers liquid flow considering Cattaneo-Christov double diffusion.
Authors: M. Waqas, T. Hayat, S. A. Shehzad and A. Alsaedi
Results in Physics, 8 (2018) 908-913.
Impact Factor: 4.565.
74. Transport of magnetohydrodynamic nanomaterial in a stratified medium considering gyrotactic microorganisms.
Authors: M. Waqas, T. Hayat, S. A. Shehzad and A. Alsaedi
Physica B: Condensed Matter 529 (2018) 33-40.
Impact Factor: 2.988.
75. Application of improved Fourier's and Fick's laws in a non-Newtonian fluid with temperature-dependent thermal conductivity.
Authors: M. Waqas, T. Hayat, S. A. Shehzad and A. Alsaedi
Journal of the Brazilian Society of Mechanical Sciences and Engineering, 40 (2018) 116.
Impact Factor: 2.361.
76. Stagnation point flow of third-grade liquid due to variable thickness: A useful application to non-Fourier heat flux approach.
Authors M. Zubair, M. Waqas, T. Hayat, A. Alsaedi and M. Ayub
Results in Physics, 8 (2018) 1010-1016.
Impact Factor: 4.565.
77. Melting heat transfer in stagnation point of Carreau fluid with nonlinear thermal radiation and heat source.
Authors: M. I. Khan, M. Waqas, T. Hayat, M. I. Khan and A. Alsaedi
Journal of the Brazilian Society of Mechanical Sciences and Engineering, 40 (2018) 270.
Impact Factor: 2.361.
78. Simulation of nonlinear convective thixotropic liquid with Cattaneo-Christov heat flux.
Authors M. Zubair, M. Waqas, T. Hayat, M. Ayub and A. Alsaedi
Results in Physics, 8 (2018) 1023-1027.
Impact Factor: 4.565.
79. Impact of chemical reaction in fully developed radiated mixed convective flow between two rotating disk.
Authors: T. Hayat, M. W. A. khan, M. I. Khan, M. Waqas and A. Alsaedi
Physica B: Condensed Matter, 538 (2018) 138-149.
Impact Factor: 2.988.
80. Salient aspects of entropy generation optimization in mixed convection nanomaterial flow.
Authors: M. I. Khan, S. Ullah, T. Hayat, M. Waqas, M. I. Khan and A. Alsaedi
International Journal of Heat and Mass Transfer, 126 (2018) 1337-1346.
Impact Factor: 5.431.
81. Cross diffusion and exponential space dependent heat source impacts in radiated three-dimensional (3D) flow of Casson fluid by heated surface
Authors: Q. M. Z. Zia, I. Ullah, M. Waqas, A. Alsaedi and T. Hayat,
Results in Physics, 8 (2018) 1275-1282.
Impact Factor: 4.565.
82. Stagnation point flow of nanomaterial towards nonlinear stretching surface with melting heat.
Authors: T. Hayat, G. Bashir, M. Waqas, A. Alsaedi, M. Ayub and S. Asghar
Neural Computing & Applications, 30 (2018) 509-518.
Impact Factor: 5.102.
83. Investigation of second grade fluid through temperature dependent thermal conductivity and non-Fourier heat flux.
Authors: T. Hayat, S. Ahmad, M. I. Khan, A. Alsaedi and M. Waqas
Results in Physics, 9 (2018) 871-878.
Impact Factor: 4.565.
84. Effect of nonlinear convection on stratified flow of third grade fluid with revised Fourier-Fick relations.
Authors: M. Waqas, M. I. Khan, T. Hayat and A. Alsaedi
Communications in Theoretical Physics, 70 (2018) 25-30.
Impact Factor: 2.877
85. Numerical simulation for magneto nanofluid flow through a porous space with melting heat transfer.
Authors: T. Hayat, F. Shah, A. Alsaedi and M. Waqas
Microgravity Science and Technology, 30 (2018) 265-275.
Impact Factor: 1.642.
86. Numerical simulation for radiative flow of nanoliquid by rotating disk with carbon nanotubes and partial slip.
Authors: T. Hayat, H. Khalid, M. Waqas and A. Alsaedi
Computer Methods in Applied Mechanics and Engineering 341 (2018) 397-408.
Impact Factor: 6.588.
87. Flow of chemically reactive magneto Cross nanoliquid with temperature-dependent conductivity.
Authors: T. Hayat, I. Ullah, M. Waqas and A. Alsaedi
Applied Nanoscience 8 (2018) 1453–1460.
Impact Factor: 3.869.
88. Magnetohydrodynamic stagnation point flow of third-grade liquid toward variable sheet thickness.
Authors: T. Hayat, M. I. Khan, M. Waqas and A. Alsaedi
Neural Computing & Applications 30 (2018) 2417–2423.
Impact Factor: 5.102.
89. MHD stratified nanofluid flow by slandering surface.
Authors: T. Hayat, I. Ullah, M. Waqas and A. Alsaedi
Physica Scripta 93 (2018) 115701.
Impact Factor: 3.081.
90. Effectiveness of Darcy-Forchheimer and nonlinear mixed convection aspects in stratified Maxwell nanomaterial flow induced by convectively heated surface.
Authors: T. Hayat, S. Naz, M. Waqas and A. Alsaedi
Applied Mathematics and Mechanics (English Edition) 39 (2018) 1373-1384.
Impact Factor: 3.918.
91. Magneto-hydrodynamical numerical simulation of heat transfer in MHD stagnation point flow of Cross fluid model towards a stretched surface.
Authors: M. I. Khan, M. Waqas, T. Hayat and A. Alsaedi
Physics and Chemistry of Liquids 56 (2018) 584-598.
Impact Factor: 1.838.
92. On stratified variable thermal conductivity stretched flow of Walter-B material subject to non-Fourier flux theory.
Authors T. Hayat, M. Zubair, M. Waqas, A. Alsaedi, and M. Ayub
Neural Computing & Applications 31 (2019) 199-205.
Impact Factor: 5.102.
93. On non-Fourier flux in nonlinear stretching flow of hyperbolic tangent material.
Authors: M. Waqas, G. Bashir, T. Hayat and A. Alsaedi
Neural Computing & Applications 31 (2019) 597-605.
Impact Factor: 5.102.
94. A generalized Fourier and Fick's perspective for stretching flow of Burgers fluid with temperature-dependent thermal conductivity.
Authors: M. Waqas, M. I. Khan, T. Hayat and A. Alsaedi
Thermal Science 23 (2019) 3425-3432.
Impact Factor: 1.971.
95. A comprehensive note on thermally stratified flow and non-Fourier heat flux theory.
Authors: M. A. Khan, M. Waqas, T. Hayat and A. Alsaedi
Thermal Science 23 (2019) 3401-3410.
Impact Factor: 1.971.
96. Thermally radiated squeezed flow of magneto-nanofluid between two parallel disks with chemical reaction.
Authors: I. Ullah, M. Waqas, T. Hayat, A. Alsaedi and M. I. Khan
Journal of Thermal Analysis and Calorimetry 135 (2019) 1021-1030.
Impact Factor: 4.755.
97. A theoretical analysis of SWCNT-MWCNT and H₂O nanofluids considering Darcy-Forchheimer relation.
Authors: M. Waqas, T. Hayat and A. Alsaedi
Applied Nanoscience 9 (2019) 1183-1191.
Impact Factor: 3.674.
98. A theoretical and comparative analysis of γAl2O3-H2O and γAl2O3-C2H6O2 nanoparticles with entropy generation and nonlinear radiation.
Authors: M. I. Khan, M. Waqas, T. Hayat and A. Alsaedi
Applied Nanoscience 9 (2019) 1227-1238.
Impact Factor: 3.869.
99. Significance of improved Fourier-Fick laws in nonlinear convective micropolar material stratified flow with variable properties.
Authors: M. Waqas, M. I. Khan, S. Farooq, T. Hayat and A. Alsaedi
Thermal Science 23 (2019) 3809-3815.
Impact Factor: 1.971.
100. Modeling and analysis of Maxwell nanofluid considering mixed convection and Darcy-Forchheimer relation.
Authors: M. A. Sadiq, M. Waqas, T. Hayat and A. Alsaedi
Applied Nanoscience 9 (2019) 1155-1162.
Impact Factor: 3.869.
101. Numerical simulation of hydromagnetic mixed convective radiative slip flow with variable fluid properties: A mathematical model for entropy generation.
Authors: M. I. Khan, T. Hayat, M. I. Khan, M. Waqas and A. Alsaedi
Journal of Physics and Chemistry of Solids 125 (2019) 153-164.
Impact Factor: 4.383.
102. Interaction of thermal radiation in hydromagnetic viscoelastic nanomaterial subject to gyrotactic microorganisms.
Authors: M. Waqas, M. I. Khan, T. Hayat, S. Farooq and A. Alsaedi
Applied Nanoscience 9 (2019) 1193-1204.
Impact Factor: 3.869.
103. Numerical simulation for activation energy impact in Darcy-Forchheimer nanofluid flow by impermeable cylinder with thermal radiation.
Authors: M. Waqas, S. Naz, T. Hayat and A. Alsaedi
Applied Nanoscience 9 (2019) 1173-1182.
Impact Factor: 3.869.
104. Darcy–Forchheimer stratified flow of viscoelastic nanofluid subjected to convective conditions.
Authors: M. Waqas, M. M. Gulzar, A. S. Dogonchi, M. A. Javed and W. A. Khan
Applied Nanoscience 9 (2019) 2031-2037.
Impact Factor: 3.869.
105. Significance of nonlinear radiation in mixed convection flow of magneto Walter-B nanoliquid.
Authors: M. I. Khan, M. Waqas, T. Hayat and A. Alsaedi
International Journal of Hydrogen Energy 44 (2019) 2077.
Impact Factor: 7.139.
106. Entropy generation in flow of Carreau nanofluid.
Authors: M. I. Khan, A. Kumar, T. Hayat, M. Waqas and R. Singh
Journal of Molecular Liquids 278 (2019) 677-687.
Impact Factor: 6.633.
107. Attributes of activation energy and exponential based heat source in flow of Carreau fluid with cross-diffusion effects.
Authors: T. Hayat, I. Ullah, M. Waqas and A. Alsaedi
Journal of Non-Equilibrium Thermodynamics 44 (2019) 203-213.
Impact Factor: 4.29.
108. Effectiveness of radiative heat flux in MHD flow of Jeffrey-nanofluid subject to Brownian and thermophoresis diffusions.
Authors: M. I. Khan, T. Hayat, M. Waqas, A. Alsaedi and M. I. Khan
Journal of Hydrodynamics 31 (2019) 421-427.
Impact Factor: 2.983.
109. CVFEM analysis for Fe3O4–H2O nanofluid in an annulus subject to thermal radiation.
Authors: A. S. Dogonchi, M. Waqas, S. M Seyyedi, M. H. Tilehnoee and D. D. Ganji
International Journal of Heat and Mass Transfer 132 (2019) 473-483.
Impact Factor: 5.431.
110. Entropy optimization in cubic autocatalysis chemical reactive flow of Williamson fluid subjected to viscous dissipation and uniform magnetic field.
Authors: M. I. Khan, S. Javed, T. Hayat, M. Waqas and A. Alsaedi
Journal of Central South University 26 (2019) 1218-1232.
Impact Factor: 2.392.
111. Numerical simulation for thermal radiation and porous medium characteristics in flow of CuO-H2O nanofluid.
Authors: A. S. Dogonchi, M. Waqas, S. M. Seyyedi, M. H. Tilehnoee and D. D. Ganji
Journal of the Brazilian Society of Mechanical Sciences and Engineering 41 (2019) 249.
Impact Factor: 2.361.
112. The role of γAl2O3-H2O and γAl2O3-C2H6O2 nanomaterials in Darcy-Forchheimer stagnation point flow: an analysis using entropy optimization.
Authors: M. I. Khan, F. Shah, M. Waqas, T. Hayat and A. Alsaedi
International Journal of Thermal Sciences 140 (2019) 20-27.
Impact Factor: 4.779.
113. Effectiveness of improved Fourier-Fick laws in a stratified non-Newtonian fluid with variable fluid characteristics.
Authors: M. Waqas, S. Naz, T. Hayat, S. A. Shehzad and A. Alsaedi
International Journal of Numerical Methods for Heat & Fluid Flow 29 (2019) 2128-2145.
Impact Factor: 5.181.
114. Theoretical investigation of peristalsis transport in flow of hyperbolic tangent fluid with slip effects and chemical reaction.
Authors: S. Farooq, M. I. Khan, T. Hayat, M. Waqas and A. Alsaedi
Journal of Molecular Liquids 285 (2019) 314-322.
Impact Factor: 6.633.
115. Modeling and analysis of Maxwell nanofluid considering mixed convection and Darcy-Forchheimer relation.
Authors: M. A. Sadiq, M. Waqas, T. Hayat and A. Alsaedi
Applied Nanoscience 9 (2019) 1155-1162.
Impact Factor: 3.869.
116. A computational framework for natural convective hydromagnetic flow via inclined cavity: an analysis subjected to entropy generation.
Authors: S. M. Seyyedi, A. S. Dogonchi, M. H. Tilehnoee, Z. Asghar, M. Waqas, D. D. Ganji
Journal of Molecular Liquids 287 (2019) 110863.
Impact Factor: 6.633.
117. A theoretical investigation for mixed convection impact in non-Newtonian nanofluid stratified flow subjected to magnetic field.
Authors: M. Waqas, M. M. Gulzar, Z. Asghar, Z. Ali, W. A. Khan and A. S. Dogonchi
International Journal of Numerical Methods for Heat & Fluid Flow 30 (2020) 2948-2963.
Impact Factor: 5.181.
118. Simulation of nanofluid thermal radiation in Marangoni convection flow of non-Newtonian fluid: a revised model.
Authors: T. Hayat, I. Ullah, M. Waqas and A. Alsaedi
International Journal of Numerical Methods for Heat & Fluid Flow 29 (2019) 2840-2853.
Impact Factor: 5.181.
119. Investigation of magneto-hydrodynamic fluid squeezed between two parallel disks by considering Joule heating, thermal radiation, and adding different nanoparticles.
Authors: A. S. Dogonchi, M. Waqas, S. R. Afshar, S. M. Seyyedi, M H. Tilehnoee, A. J Chamkha and D. D. Ganji
International Journal of Numerical Methods for Heat & Fluid Flow 29 (2019) 659-680.
Impact Factor: 5.181.
120. Slow invariant manifolds and its approximation in a multi-route reaction mechanism: a case study of iodized H2/O mechanism.
Authors: M. Waqas, M. M. Gulzar, W. A. Khan, M. I. Khan and N. B. Khan
Journal of Molecular Liquids 288 (2019) 111048.
Impact Factor: 6.633.
121. Modeling and analysis for magnetic dipole impact in nonlinear thermally radiating Carreau nanofluid flow subject to heat generation.
Authors: M. Waqas, S. Jabeen, T. Hayat, M. I. Khan and A Alsaedi
Journal of Magnetism and Magnetic Materials 487 (2019) 197-204.
Impact Factor: 3.097.
122. Mathematical analysis of thermally radiative time-dependent Sisko nanofluid flow for curved surface.
Authors: W. A. Khan, M. Waqas, M. Ali, F. Sultan, M. Shahzad and M. Irfan
International Journal of Numerical Methods for Heat & Fluid Flow 29 (2019) 3498-3514.
Impact Factor: 5.181.
123. Shape effects of Copper-Oxide (CuO) nanoparticles to determine the heat transfer filled in a partially heated rhombus enclosure: CVFEM approach.
Authors: A. S. Dogonchi, M. Waqas, D. D. Ganji
International Communications in Heat and Mass Transfer 107 (2019) 14-23.
Impact Factor: 6.782.
124. Simulation of magnetohydrodynamics and radiative heat transport in convectively heated stratified flow of Jeffrey nanofluid.
Authors: M. Waqas, S. A. Shehzad, T. Hayat, M. I. Khan and A. Alsaedi
Journal of Physics and Chemistry of Solids 133 (2019) 45-51.
Impact Factor: 4.383.
125. Irreversibility and thermo-diffusion effects on unsteady chemically reactive slip flow between two rotating disks.
Authors: M. I. Khan, S. Qayyum, T. Hayat, M. Waqas and A. Alsaedi
Journal of Heat Transfer 141 (2019) 102001.
Impact Factor: 1.855.
126. Entropy optimization in Ag-H2O and Cu-H2O nanomaterial flow with cubic autocatalysis chemical reaction.
Authors: M. I. Khan, S. Javed, M. Waqas, T. Hayat and A. Alsaedi
European Physical Journal Plus 134 (2019) 500.
Impact Factor: 3.758.
127. Simulation of Fe3O4-H2O nanoliquid in a triangular enclosure subjected to Cattaneo-Christov theory of heat conduction.
Authors: A. S. Dogonchi, M. Waqas, M. M. Gulzar, M H. Tilehnoee, S. M. Seyyedi and D. D. Ganji
International Journal of Numerical Methods for Heat & Fluid Flow 29 (2019) 4430-4444.
Impact Factor: 5.181.
128. A mathematical framework for peristaltic flow analysis of non-Newtonian Sisko fluid in an undulating porous curved channel with heat and mass transfer effects.
Authors: Z. Asghar, N. Ali, R. Ahmed, M. Waqas, W. A. Khan
Computer Methods and Programs in Biomedicine 182 (2019) 105040.
Impact Factor: 7.027.
129. Modeling and analysis of von Kármán swirling flow for Oldroyd-B nanofluid featuring chemical processes.
Authors: S. Z. Abbas, W. A. Khan, H. Sun, M. Ali, M. Waqas, M. Irfan, S. Ahmad
Journal of the Brazilian Society of Mechanical Sciences and Engineering 41 (2019) 556.
Impact Factor: 2.361.
130. Hydromagnetic Carreau nanoliquid in frames of dissipation and activation energy.
Authors: M. Waqas, S. Naz, T. Hayat, M. I. Khan and A. Alsaedi
Communications in Theoretical Physics 71 (2019) 1416.
Impact Factor: 2.877.
131. OHAM analysis for dissipative viscoelastic nanofluid considering entropy generation and activation energy.
Authors: M. M. Gulzar, S. Jabeen, M. Waqas, S. A. Shehzad, T. Hayat and A. Alsaedi
International Journal of Numerical Methods for Heat & Fluid Flow 29 (2019) 4807-4825.
Impact Factor: 5.181.
132. Importance of convective heat transfer in flow of non-Newtonian nanofluid featuring Brownian and thermophoretic diffusions.
Authors: W. A. Khan, M. Ali, M. Waqas, M. Shahzad, F. Sultan and M. Irfan
International Journal of Numerical Methods for Heat & Fluid Flow 29 (2019) 4624-4641.
Impact Factor: 5.181.
133. Irreversibility in two-dimensional magneto-nanomaterial flow of Jeffrey fluid with Arrhenius activation energy.
Authors: S. Ahmad, M. I. Khan, T. Hayat, M. Waqas and A. Alsaedi
International Journal of Numerical Methods for Heat & Fluid Flow 29 (2019) 4485-4506.
Impact Factor: 5.181.
134. Von Kármán swirling analysis for modeling Oldroyd-B nanofluid considering cubic autocatalysis.
Authors: S. Z. Abbas, W. A. Khan, H. Sun, M. Irfan, M. I. Khan and M. Waqas
Physica Scripta 95 (2019) 015206.
Impact Factor: 3.081.
135. Newtonian heat and mass conditions impact in thermally radiated Maxwell nanofluid Darcy-Forchheimer flow with heat generation.
Authors: M. Waqas, M. M. Gulzar, W. A. Khan, M. I. Khan and N. B. Khan
International Journal of Numerical Methods for Heat & Fluid Flow 29 (2019) 2809-2821.
Impact Factor: 5.181
136. A mathematical and computational framework for heat transfer analysis of ferromagnetic non-Newtonian liquid subjected to heterogeneous and homogeneous reactions.
Authors: M. Waqas
Journal of Magnetism and Magnetic Materials 493 (2020) 165646.
Impact Factor: 3.097.
137. Transportation of radiative energy in viscoelastic nanofluid considering buoyancy forces and convective conditions.
Authors: M. Waqas, M. I. Khan, T. Hayat, M. M. Gulzar and A. Alsaedi
Chaos, Solitons & Fractals 130 (2020) 109415.
Impact Factor: 9.922.
138. Framing the novel aspects of irreversibilty in MHD flow of Williamson nanomaterial with thermal radiation near stagnation point.
Authors: M. I. Khan, S. Qayyum, M. Waqas, T. Hayat, A. Alsaedi
Journal of Thermal Analysis and Calorimetry 139 (2020) 1291-1299.
Impact Factor: 4.755.
139. Activation energy for the Carreau-Yasuda nanomaterial flow: Analysis of the entropy generation over a porous medium.
Authors: M. I. Khan, S. Afzal, T. Hayat, M. Waqas and A. Alsaedi
Journal of Molecular Liquids 297 (2020) 111905.
Impact Factor: 6.633.
140. Double stratfied flow of nanofluid subject to temperature based thermal conductivity and heat source.
Authors: T. Hayat, I. Ullah, A. Alsaedi and M. Waqas
Thermal Science 24 (2020) 1157-1171.
Impact Factor: 1.971.
141. Modeling and numerical simulation for flow of hybrid nanofluid (SiO2/C3H8O2) and (MoS2/C3H8O2) with entropy optimization and variable viscosity.
Authors: M. I. Khan, S. A. Khan, T. Hayat, M. Waqas and A. Alsaedi
International Journal of Numerical Methods for Heat & Fluid Flow 22 (2020) 4430-4444.
Impact Factor: 5.181.
142. Entropy generation in radiative flow of Ree-Eyring fluid due to due rotating disks.
Authors: M. I. Khan, S. A. Khan, T. Hayat, M. F Javed and M. Waqas
International Journal of Numerical Methods for Heat & Fluid Flow 30 (2020) 3939-3955.
Impact Factor: 5.181.
143. Investigation of entropy generation in a square inclined cavity using control volume finite element method with aided quadratic Lagrange interpolation functions.
Authors: S. M. Seyyedi, A. S. Dogonchi, M. H. Tilehnoee, M. Waqas and D. D. Ganji
International Communications in Heat and Mass Transfer 110 (2020) 104398.
Impact Factor: 6.782.
144. A theoretical nanofluid analysis exhibiting hydromagnetics characteristics employing CVFEM.
Authors: S. Mondal, A. S. Dogonchi, N. Tripathi, M. Waqas, S. M. Seyyedi, M. H. Tilehnoee and D. D. Ganji
Journal of the Brazilian Society of Mechanical Sciences and Engineering 42 (2020) 19.
Impact Factor: 2.361.
145. Peristalsis of carbon nanotubes with radiative heat flux.
Authors: S. Farooq, M. I. Khan, M. Waqas, T. Hayat and A. Alsaedi
Applied Nanoscience 10 (2020) 347-357.
Impact Factor: 3.869.
146. Transport of hybrid type nanomaterials in peristaltic activity of viscous fluid considering nonlinear radiation, entropy optimization and slip effects.
Authors: S. Farooq, M. I. Khan, M. Waqas, T. Hayat and A. Alsaedi
Computer Methods and Programs in Biomedicine 184 (2020) 105086.
Impact Factor: 7.027.
147. Mathematical modelling and analysis of gravitational collapse in curved geometry.
Authors: S. Z. Abbas, H. Sun, H. H. Shah, W. A. Khan, S. Ahmad and M. Waqas
Computer Methods and Programs in Biomedicine 184 (2020) 105283.
Impact Factor: 7.027.
148. A modified Fourier approach for analysis of nanofluid heat generation within a semi-circular enclosure subjected to MFD viscosity.
Authors: A. S. Dogonchi, M. Waqas, S. M. Seyyedi, M. H. Tilehnoee and D. D. Ganji
International Communications in Heat and Mass Transfer 111 (2020) 104430.
Impact Factor: 6.782.
149. A shear-rate-dependent flow generated via magnetically controlled metachronal motion of artificial cilia.
Authors: A. Wu, S. Z. Abbas, Z. Asghar, H. Sun, M. Waqas and W. A Khan
Biomechanics and Modeling in Mechanobiology 19 (2020) 1713-1724.
Impact Factor: 3.623.
150. Nonlinear convection and joule heating impacts in magneto-thixotropic nanofluid stratified flow by convectively heated variable thicked surface.
Authors: M. Waqas, A. S. Dogonchi, S. A. Shehzad, M. I. Khan, T. Hayat and A. Alsaedi
Journal of Molecular Liquids 300 (2020) 111945.
Impact Factor: 6.633.
151. The influence of different shapes of nanoparticle on Cu–H2O nanofluids in a partially heated irregular wavy enclosure.
Authors: A. S. Dogonchi, M. H. Tilehnoee, M. Waqas, S. M. Seyyedi, I. L. Animasaun and D. D. Ganji
Physica A: Statistical Mechanics and its Applications 300 (2020) 111945.
Impact Factor: 3.778.
152. CVFEM simulation for Fe3O4-H2O nanofluid in an annulus between two triangular enclosures subjected to magnetic field and thermal radiation.
Authors: A. S. Dogonchi, Z. Asghar and M. Waqas
International Communications in Heat and Mass Transfer 112 (2020) 104449.
Impact Factor: 6.782.
153. Simulation of revised nanofluid model in the stagnation region of cross fluid by expanding-contracting cylinder.
Authors: M. Waqas
International Journal of Numerical Methods for Heat & Fluid Flow 30 (2020) 2193-2205.
Impact Factor: 5.181.
154. Numerical simulation for nonlinear radiated Eyring-Powell nanofluid considering magnetic dipole and activation energy.
Authors: M. Waqas, S. Jabeen, T. Hayat, S. A. Shehzad and A. Alsaedi
International Communications in Heat and Mass Transfer 112 (2020) 104401.
Impact Factor: 6.782.
155. Entropy generation and economic analyses in a nanofluid filled L-shaped enclosure subjected to an oriented magnetic field.
Authors: S. M. Seyyedi, A. S. Dogonchi, M. H. Tilehnoee, M. Waqas and D. D. Ganji
Applied Thermal Engineering 168 (2020) 114789.
Impact Factor: 6.465.
156. Cilia-driven fluid flow in a curved channel: effects of complex wave and porous medium.
Authors: Z. Asghar, K. Javid, M. Waqas, A. Ghaffari and W. A. Khan
Fluid Dynamics Research 52 (2020) 015514.
Impact Factor: 1.5.
157. Entropy optimized MHD 3D nanomaterial of non-Newtonian fluid: a combined approach to good absorber of solar energy and intensification of heat transport.
Authors: M. K. Nayak, A. K. A. Hakeem, B. Ganga, M. I. Khan, M. Waqas and O. D. Makinde
Computer Methods and Programs in Biomedicine 186 (2020) 105131.
Impact Factor: 7.027.
158. An implicit finite difference analysis of magnetic swimmers propelling through non-Newtonian liquid in a complex wavy channel.
Authors: Z. Asghar, N. Ali, M. Waqas and M. A. Javed
Computers & Mathematics with Applications 79 (2020) 2189-2202.
Impact Factor: 3.218.
159. Entropy optimized stretching flow based on non-Newtonian radiative nanoliquid under binary chemical reaction.
Authors: J. Wang, W. A. Khan, Z. Asghar, M. Waqas, M. Ali and M. Irfan
Computer Methods and Programs in Biomedicine 188 (2020) 105274.
Impact Factor: 7.027.
160. Exploring the features for flow of Oldroyd-B liquid film subjected to rotating disk with homogeneous/heterogeneous processes.
Authors: S. Z. Abbas, W. A. Khan, M. Waqas, M. Irfan and Z. Asghar
Computer Methods and Programs in Biomedicine 189 (2020) 105323.
Impact Factor: 7.027.
161. Magnetic field influence in three-dimensional rotating micropolar nanoliquid with convective conditions.
Authors: S. Z. Abbas, W. A. Khan, M. M. Gulzar, T. Hayt, M. Waqas and Z Asghar
Computer Methods and Programs in Biomedicine 189 (2020) 105324.
Impact Factor: 7.027.
162. Bio-inspired propulsion of micro-swimmers within a passive cervix filled with couple stress mucus.
Authors: Z. Asghar, N. Ali, K. Javid, M. Waqas, A. S. Dogonchi and W. A. Khan
Computer Methods and Programs in Biomedicine 189 (2020) 105313.
Impact Factor: 7.027.
163. An improved double diffusion analysis of non-Newtonian chemically reactive fluid in frames of variables properties.
Authors: M. Waqas, W. A. Khan and Z. Asghar
International Communications in Heat and Mass Transfer 115 (2020) 104524.
Impact Factor: 6.782.
164. On the evaluation of stratification based entropy optimized hydromagnetic flow featuring dissipation aspect and Robin conditions.
Authors: W. A. Khan, M. Waqas, S. Kadry, Z. Asghar, S. Z. Abbas and M. Irfan
Computer Methods and Programs in Biomedicine 190 (2020) 105347.
Impact Factor: 7.027.
165. Fully developed entropy optimized second order velocity slip MHD nanofluid flow with activation energy.
Authors: S. Z. Abbas, M. I. Khan, S. Kadry, W. A. Khan, M. I. U. Rehman and. M Waqas
Computer Methods and Programs in Biomedicine 190 (2020) 105362.
Impact Factor: 7.027.
166. Entropy optimized Darcy-Forchheimer nanofluid (silicon dioxide, molybdenum disulfide) subject to temperature dependent viscosity.
Authors: S. Z. Abbas, W. A. Khan, S. Kadry, M. I. Khan, M. Waqas and M. I. Khan
Computer Methods and Programs in Biomedicine 190 (2020) 105363.
Impact Factor: 7.027.
167. Corrigendum to “Transport of hybrid type nanomaterials in peristaltic activity of viscous fluid considering nonlinear radiation, entropy optimization and slip effects”.
Authors: S. Farooq, M I. Khan, M. Waqas, T. Hayat and A. Alsaedi
Computer Methods and Programs in Biomedicine 190 (2020) 105252.
Impact Factor: 7.027.
168. A theoretical analysis of Biorheological fluid flowing through a complex wavy convergent channel under porosity and electro-magneto-hydrodynamics effects.
Authors: K. Javid, M. Waqas, Z. Asghar and A. Ghaffari
Computer Methods and Programs in Biomedicine 191 (2020) 105413.
Impact Factor: 7.207.
169. Analytical evaluation of Oldroyd-B nanoliquid under thermo-solutal Robin conditions and stratifications.
Authors: M. Waqas, T. Hayat, A. Alsaedi and W. A. Khan
Computer Methods and Programs in Biomedicine 196 (2020) 105474.
Impact Factor: 7.027.
170. Evaluating the characteristics of magnetic dipole for shear-thinning Williamson nanofluid with thermal radiation.
Authors: W. A. Khan, M. Waqas, W. Chammam, Z. Asghar, U. A. Nisar and S. Z. Abbas
Computer Methods and Programs in Biomedicine 191 (2020) 105396.
Impact Factor: 7.027.
171. Numerical modeling and analysis of non-Newtonian nanofluid featuring activation energy.
Authors: S. Naz, M. M. Gulzar, M. Waqas, T. Hayat and A. Alsaedi
Applied Nanoscience 10 (2020) 3183-3192.
Impact Factor: 3.869.
172. Rheology of mixed convective Casson nanofluid in a convectively heated stratified medium.
Authors: M. M. Gulzar, M. Waqas, Z. Asghar and S. Ali
Applied Nanoscience 10 (2020) 3227-3233.
Impact Factor: 3.869.
173. Activation energy analysis in entropy optimized reactive flow.
Authors: M. I. Khan, M. Irfan, W. A. Khan, M. Waqas and S. Rashid
Applied Nanoscience 10 (2020) 2673-2683.
Impact Factor: 3.869.
174. Transportation and analysis of hybrid nanomaterial (graphene oxide, copper) in radiated Darcy-Forchheimer flow with entropy optimization.
Authors: M. Waqas, M. I. Khan, F. Alzahrani and A. Hobiny
International Journal of Modern Physics B 34 (2020) 2050193.
Impact Factor: 1.404.
175. Interaction of heat generation in nonlinear mixed/forced convective flow of Williamson fluid flow subject to generalized Fourier's and Fick's concept.
Authors: M. Waqas, M. I. Khan, Z. Asghar, S. Kadry, Y. M. Chu and W. A. Khan
Journal of Materials Research and Technology 9 (2020) 11080-11086.
Impact Factor: 6.267.
176. Rheology of hydromagnetic viscoelastic fluid subjected to dissipation aspect.
Authors: M. Waqas, U. A. Nisar, M. I. Khan and S. A. Shehzad
International Journal of Numerical Methods for Heat & Fluid Flow 31 (2021) 1110-1123.
Impact Factor: 5.181.
177. Investigation of cross-fluid flow containing motile gyrotactic microorganisms and nanoparticles over a three-dimensional cylinder.
Authors: Kh. Hosseinzadeh, S. Roghani, A. R. Mogharrebi, A. Asadi, M. Waqas and D. D. Ganji
Alexandria Engineering Journal 59 (2020) 3297-3307.
Impact Factor: 6.626.
178. Design of neural network based intelligent computing for neumerical treatment of unsteady 3D flow of Eyring-Powell magneto-nanofluidic model.
Authors: Z. Shah, M. A. Z. Raja, Y. M. Chu, W. A. Khan,, M. Waqas, M. Shoaib, S. Z. Abbass
Journal of Materials Research and Technology 9 (2020) 14372-14387.
Impact Factor: 6.267.
179. Visualization of non-linear convective Williamson liquid based on generalized heat-mass theories.
Authors: M. Waqas, A. Ahmad, Z. Asghar, M. Irfan, W. A. Khan and M. Zubair
Physica Scripta 96 (2020) 015218.
Impact Factor: 3.081.
180. Locomotion of an efficient biomechanical sperm through viscoelastic medium.
Authors: Z. Asghar, N. Ali, M. Waqas, M. Nazeer and W. A. Khan
Biomechanics and Modeling in Mechanobiology 19 (2020) 2271-2284.
Impact Factor: 3.623.
181. Evaluation of Arrhenius activation energy and new mass flux condition in Carreau nanofluid: dual solutions.
Authors: M. Irfan, W. A. Khan, M. Khan and M. Waqas
Applied Nanoscience 10 (2020) 5279-5289.
Impact Factor: 3.869.
182. A nonlinear mathematical analysis for magneto-hyperbolic-tangent liquid featuring simultaneous aspects of magnetic field, heat source and thermal stratification.
Authors: M. M. Gulzar, A. Aslam, M. Waqas, M. A. Javed and K. Hosseinzadeh
Applied Nanoscience 10 (2020) 4513-4518.
Impact Factor: 3.869.
183. Arrhenius activation energy aspects in mixed convection Carreau nanofluid with nonlinear thermal radiation.
Authors: M. Irfan, M. S. Anwar, M. Rashid, M. Waqas and W. A. Khan
Applied Nanoscience 10 (2020) 4403-4413.
Impact Factor: 3.869.
184. Heat generation in mixed convected Williamson liquid stretching flow under generalized Fourier concept.
Authors: Z. Asghar, M. Kousar, M. Waqas, M. Irfan, M. Bilal and W. A. Khan
Applied Nanoscience 10 (2020) 4439-4444.
Impact Factor: 3.869.
185. Numerical simulation for MHD Darcy–Forchheimer three-dimensional stagnation point flow by a rotating disk with activation energy and partial slip.
Authors: M. I. Khan, W. A. Khan, M. Waqas, S. Kadry, Y. M. Chu and Z. Ali
Applied Nanoscience 10 (2020) 5469-5477.
Impact Factor: 3.869.
186. Role of dipole interactions in Darcy–Forchheimer first-order velocity slip nanofluid flow of Williamson model with Robin conditions.
Authors: M. I. Khan, W. A. Khan, M. Waqas, S. Kadry, Y. M. Chu and M. Nazeer
Applied Nanoscience 10 (2020) 5343-5350.
Impact Factor: 3.869.
187. Characterization of thermal-dependent conductivity in Cattaneo-Christov (CC)-based buoyancy-driven incompressible flow.
Authors: M. Waqas, M. I. Khan, F. Alzahrani and A. Hobiny
Applied Nanoscience 10 (2020) 5441-5447.
Impact Factor: 3.869.
188. Convective stratified flow of magnetized Eyring–Powell (EP) nanofluid by a stretching cylinder.
Authors: F. Shahzad, S. A. Shehzad, W. A. Khan, M. Waqas, M. Manzur and M. Zubair
Applied Nanoscience 10 (2020) 5401-5408.
Impact Factor: 3.869.
189. Analysis of thermal behavior of magnetic buoyancy-driven flow in ferrofluid–filled wavy enclosure furnished with two circular cylinders.
Authors: M. S. Sadeghi, T. Tayebi, A. S. Dogonchi, M. K. Nayak and M. Waqas
International Communications in Heat and Mass Transfer 120 (2021) 104951.
Impact Factor: 6.782.
190. Theoretical analysis of new mass flux theory and Arrhenius activation energy in Carreau nanofluid with magnetic influence.
Authors: M. Irfan, K. Rafiq, M. Khan, M. Waqas and M. S. Anwar
International Communications in Heat and Mass Transfer 120 (2021) 105051.
Impact Factor: 6.782.
191. A non-linear mathematical analysis of thermally radiative stratified nanoliquid featuring the aspects of magnetic field, Robin conditions and thermal radiation.
Authors: M. Waqas, U. A. Nisar, S. A. Shehzad, M. Irfan and W. A. Khan
International Communications in Heat and Mass Transfer 125 (2021) 105199.
Impact Factor: 6.782.
192. A study on magneto-hydrodynamic non-Newtonian thermally radiative fluid considering mixed convection impact towards convective stratified surface.
Authors: M. Waqas
International Communications in Heat and Mass Transfer 126 (2021) 105262.
Impact Factor: 6.782.
193. An improved Darcian analysis for chemically reacted Maxwell liquid toward convectively heated moving surface with magnetohydrodynamics.
Authors: M. Waqas, N. Akram, Z. Asghar, M. M. Gulzar and M. A. Javed
Journal of Thermal Analysis and Calorimetry 143 (2021) 2069-2074.
Impact Factor: 4.755.
194. Visualization of stratification based Eyring–Powell material flow capturing nonlinear convection effects.
Authors: M. Waqas, N. Gulshan, Z. Asghar, M. M. Gulzar and M. Bilal
Journal of Thermal Analysis and Calorimetry 143 (2021) 2577-2584.
Impact Factor: 4.755.
195. Modeling and numerical analysis of nanoliquid (titanium oxide, graphene oxide) flow viscous fluid with second order velocity slip and entropy generation.
Authors: M. I. Khan, S. Kadry, Y. Chu and M. Waqas
Chinese Journal of Chemical Engineering 31 (2021) 17-25.
Impact Factor: 3.898.
196. Nonlinear mixed convection impact on radiated flow of nanomaterials subject to convective conditions.
Authors: M. Waqas, I. Ullah, T. Hayat and A. Alsaedi
Arabian Journal for Science and Engineering 46 (2021) 2349-2359.
Impact Factor: 2.807.
197. Stability analysis and modeling for the three-dimensional Darcy-Forchheimer stagnation point nanofluid flow towards a moving surface.
Authors: Y. Chu, M. I. Khan, M. I. U. Rehman, S. Kadry, S. Qayyum and M. Waqas
Applied Mathematics and Mechanics 42 (2021) 357-370.
Impact Factor: 3.918.
198. Bidirectional Williamson nanofluid flow towards stretchable surface with modified Darcy’s law.
Authors: M. Z. Kiyani, T. Hayat, I. Ahmad, M. Waqas and A. Alsaedi
Surfaces and Interfaces 23 (2021) 100872.
Impact Factor: 6.137.
199. Diffusion of stratification based chemically reactive Jeffrey liquid featuring mixed convection.
Authors: M. Waqas
Surfaces and Interfaces 23 (2021) 100783.
Impact Factor: 6.137.
200. Influence of thermo-diffusion and dissipation thermo on the characteristics of optimized mixed convective radiative laminar flow with chemical reaction.
Authors: Y. X. Li, M. I. Khan, S. A. Khan and M. Waqas
Computational and Theoretical Chemistry 1200 (2021) 113245.
Impact Factor: 2.292.
201. Entropy generation of three-dimensional Bödewadt flow of water and hexanol base fluid suspended by Fe3O4 and MoS2 hybrid nanoparticles.
Authors: K. Hosseinzadeh, M. R. Mardani, S. Salehi, M. Paikar, M. Waqas and D. D. Ganji
Pramana Journal of Physics 95 (2021) 57.
Impact Factor: 2.699.
202. Dynamical interaction effects on soft-bodied organisms in a multi-sinusoidal passage.
Authors: Z. Asghar, N. Ali, K. Javid, M. Waqas and W. A. Khan
European Physical Journal Plus 136 (2021) 693.
Impact Factor: 3.758.
203. Thermo-solutal Robin conditions significance in thermally radiative nanofluid under stratification and magnetohydrodynamics.
Authors: M. Waqas, Z. Asghar and W. A. Khan
European Physical Journal Special Topics 230 (2021) 1307-1316.
Impact Factor: 2.891.
204. Transportation of heat and mass of nonlinear mixed convective boundary flow of Casson fluid with generalized Fourier’s and Fick’s laws and stratification effect.
Authors: M. Saqlain, M. I. Anwar and M. Waqas
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science (2021) https://doi.org/10.1177/09544062211039531
Impact Factor: 1.758.
205. Characterization of magnetized CNT-based hybrid nanofluid subjected to convective phenomenon.
Authors: T. Hayat, W. A. Khan, Aqsa, M. Waqas, S. Z. Abbas, M. Y. Malik, A. S. Alqahtani
International Journal of Modern Physics B 35 (2021) 2150285.
Impact Factor: 1.404.
206. Darcy-Forchheimer characteristics of viscoelastic stratified nanoliquid by convectively heated permeable surface.
Authors: M. A. Sadiq, M. Waqas and A. Alsaedi
Thermal Science 25 (2021) 1057-1065.
Impact Factor: 1.971.
207. Impact of stratification phenomena on a nonlinear radiative flow of sutterby nanofluid.
Authors: W. A. Khan, N. Anjum, M. Waqas, S. Z. Abbas, M. Irfan and T. Muhammad
Journal of Materials Research and Technology 15 (2021) 306-314.
Impact Factor: 6.267.
208. Modeling and analysis of unsteady second-grade nanofluid flow subject to mixed convection and thermal radiation.
Authors: S. Z. Abbas, M. Waqas, A. Thaljaoui, M. Zubair, A. Rahi, Y. M. Chu and W. A. Khan
Soft Computing (2022) https://doi.org/10.1007/s00500-021-06575-7
Impact Factor: 3.732.
209. Analysis of energy transport considering Arrhenius activation energy and chemical reaction in radiative Maxwell nanofluid flow.
Authors: M. Irfan, M. Khan, T. Muhammad, M. Waqas and W. A. Khan
Chemical Physics Letters 793 (2022) 139323
Impact Factor: 2.719.
210. Chemical reaction impact in dual diffusive non-Newtonian liquid featuring variable fluid thermo-solutal attributes
Authors: M. Waqas
Chemical Physics Letters 802 (2022) 139661
Impact Factor: 2.719.
211. Transport of chemically reactive thixotropic nanofluid flow by convectively heated porous surface
Authors: M. Waqas, F. Alzahrani and M. Ijaz Khan
Chemical Physics Letters 803 (2022) 139742
Impact Factor: 2.719.
212. Cattaneo-Christov dual diffusive non-Newtonian nanoliquid flow featuring nonlinear convection
Authors: M. Nasir, M. Waqas, M. S. Kausar, O. A. Beg and N. Zamri
Chinese Journal of Physics (2022) https://doi.org/10.1016/j.cjph.2022.05.005
Impact Factor: 3.957
213. Boundary layer flow of micropolar nanofluid towards a permeable stretching sheet in the presence of porous medium with thermal radiation and viscous dissipation
Authors: M. S. Kausar, A. Hussanan, M. Waqas and M. Mamat
Chinese Journal of Physics 78 (2022) 435-452
Impact Factor: 3.957
214. Thermally radiative couple-stress magnetized liquid featuring Newtonian heating
Authors: M. Z. Kiyani, M. Waqas, T. Muhammad, A. K. Abbasi, M. Mamat, M. Sadiq
Waves in Random and Complex Media (2022) https://doi.org/10.1080/17455030.2022.2044540
Impact Factor: 4.051
215. Rheology of magneto-micropolar nanoliquid toward radiative exponential surface subjected to Brownian motion, thermal radiation, thermophoresis and viscous dissipation
Authors: M. Z. Kiyani, A. M. K. Abbasi, T. Muhammad, I. Ahmad, M. Waqas and S. Riaz
Waves in Random and Complex Media (2022) https://doi.org/10.1080/17455030.2022.2048921
Impact Factor: 4.051
216. Numerical and analytical solutions for unsteady nanofluid flow capturing magneto-hydrodynamic and radiation effects
Authors: M. Z. Kiyani, I. Ahmad, T. Muhammad, I. Tanveer, M. Waqas, A. K. Abbasi
Waves in Random and Complex Media (2022) https://doi.org/10.1080/17455030.2022.2048920
Impact Factor: 4.051
217. Entropy generation analysis for the radiative flow of Sisko nanofluid with heat sink/source
Author: M. Waqas, P. Sunthrayuth, A. A. Pasha, W. A. Khan, A. Hobiny and Z. Asghar
Waves in Random and Complex Media (2022) https://doi.org/10.1080/17455030.2022.2094026
Impact Factor: 4.051
218. Analysis of thermally radiative magnetized viscoelastic (second-grade) fluid by impermeable vertical cylinder
Authors: M. Waqas
Waves in Random and Complex Media (2022) https://doi.org/10.1080/17455030.2022.2139006
Impact Factor: 4.051
219. Chemically reactive Maxwell nanoliquid flow by a stretching surface in the frames of Newtonian heating, nonlinear convection and radiative flux: Nanopolymer flow processing simulation
Authors: M. Nasir, M. Waqas, O. A. Bég, D. B. Basha, N. Zamri, H. J. Leonard and I. Khan
Nanotechnology Reviews 11 (2022) 1291-1306
Impact Factor: 6.739
220. Electro-osmotically driven generalized Newtonian blood flow in a divergent micro-channel
Authors: Z. Asghar, M. Waqas, M. A. Gondal and W. A. Khan
Alexandria Engineering Journal 61 (2022) 4519-4528
Impact Factor: 6.626
221. Further analysis of double-diffusive flow of nanofluid through a porous medium situated on an inclined plane: AI-based Levenberg–Marquardt scheme with backpropagated neural network
Authors: M. Shoaib, T. Rafia, M. A. Z. Raja, W. A. Khan and M. Waqas
Journal of the Brazilian Society of Mechanical Sciences and Engineering 44 (2022) 1-21
Impact Factor: 2.361
222. Rheology of tangent-hyperbolic (TH) nanoliquid configured by stretchable stratified surface considering transpiration effects
Authors: M. Nasir, M. Waqas, N. Zamri, M. Jameel, K. Guedri and A. M. Galal
International Journal of Modern Physics B (2022) 2350057
Impact Factor: 1.404
223. A theoretical study on partial slip impact in radiative-hydromagnetic liquid configured by extending surface
Authors: M. Zubair, M. Waqas, M. Nasir, O. T. Bafakeeh, H. F. M. Ameen, A. M. Galal
International Journal of Modern Physics B (2022) 2350074
Impact Factor: 1.404
224. Comparative investigation of Copper, Silver and Ferric Oxide in binary reactive flow with activation energy and heat source/sink
Authors: K. Guedri, M. Waqas, M. Ijaz Khan, K. Al-Basyouni, M. A. Haider and M. W. Ahmed
International Journal of Modern Physics B 27 (2022) 2250189
Impact Factor: 1.404
225. Modeling and analytical analysis of dual diffusive Williamson nanoliquid considering generalized heat-mass concepts
Authors: M. Nasir, M. Waqas, N. Zamri, K. Guedri and A. M. Galal
International Journal of Modern Physics B (2022) https://doi.org/10.1142/S021797922350056X
Impact Factor: 1.404
226. Thermal phenomenon of Joule heating in the radiative flow of Carreau nanofluid
Authors: M. Irfan, A. Nadeem, N. Nasir, M. Waqas and W. A Khan
Pramana 96 (2022) 90
Impact Factor: 2.699
227. Application of Levenberg–Marquardt technique for electrical conducting fluid subjected to variable viscosity
Authors: Z. Shah, M. A. Z. Raja, W. A. Khan, M. Shoaib, Z. Asghar, M. Waqas and T. Muhammad
Indian Journal of Physics 96 (2022) 3901-3919
Impact Factor: 1.778
228. Gyrotactic bioconvection stratified flow of magnetized micropolar nanoliquid configured by stretchable radiating surface with Joule heating and viscous dissipation
Authors: M. Waqas, M. A. Sadiq and H. M. S. Bahaidarah
International Communications in Heat and Mass Transfer 138 (2022)106229
Impact Factor: 6.782
229. Dynamics of tangent-hyperbolic nanoliquids configured by stratified extending surface: Effects of transpiration, Robin conditions and dual stratifications
Author: M. Nasir, M. Waqas, O. A. Beg, N. Zamri, H. J. Leonard and K. Guedri
International Communications in Heat and Mass Transfer 138 (2022)106229
Impact Factor: 6.782
230. Thermal aspects of magnetically driven micro-rotational nanofluid configured by exponential radiating surface
Authors: K. Guedri, W. A. Khan, Nawal A. Alshehri, M. Mamat, M. Jameel, Yun-Jie Xu, M. Waqas and A. M. Galal
Case Studies in Thermal Engineering 39 (2022) 102322
Impact Factor: 6.268
231. Numerical analysis for thermal performance of modified Eyring Powell nanofluid flow subject to activation energy and bioconvection dynamic
Authors: N. Anjum, W. A. Khan, A. Hobiny, M.Azam, M.Waqas and M.Irfan
Case Studies in Thermal Engineering 39 (2022) 102427
Impact Factor: 6.268
232. Dynamics of bioconvective Casson nanoliquid from a moving surface capturing gyrotactic microorganisms, magnetohydrodynamics and stratifications
Authors: M.Waqas, W. A. Khan, A. A. Pasha, N. Islam and M. M. Rahman
Thermal Science and Engineering Progress 36 (2022) 101492
Impact Factor: 4.56
233. Porosity effects on the peristaltic flow of biological fluid in a complex wavy channel
Authors: K. Javid, Z. Asghar, U. Saeed and M. Waqas
Pramana 96 (2022) 1-13
Impact Factor: 2.699
234. Chemically reactive Carreau nanoliquid radiative flow induced by exponentially extending surface capturing variable liquid characteristics: A three-dimensional analysis
Authors: F. Shahzad, M. Ashiq, M. Waqas, A. A. Pasha, N. Islam and M. Zubair
Authors: M. Waqas, M. A. Sadiq and H. M. S. Bahaidarah
International Communications in Heat and Mass Transfer (2022) (in press)
Impact Factor: 6.782
235. Heat transport exploration for hybrid nanoparticle (Cu, Fe3o4)-based blood flow via tapered complex wavy curved channel with slip features
Authors: I. Abbasi, W. Farooq, E. S. M. Tag-ElDin, S. U. Khan, M. I. Khan, K. Guedri, S. Elattar, M. Waqas and A. M. Galal
Micromachines, 13 (2022) 1415
Impact Factor: 3.523
236. Analysis of nonlinear convection–radiation in chemically reactive Oldroyd-B nanoliquid configured by a stretching surface with Robin conditions: Applications in nano-coating manufacturing
Authors: M. Nasir, M. Waqas, O. A. Bég, H. F. M. Ameen, N. Zamri, K. Guedri, S. M. Eldin
Micromachines, 13 (2022) 2196
Impact Factor: 3.523
237. Impact of magnetized non-linear radiative flow on 3D chemically reactive Sutterby nanofluid capturing heat sink/source aspects
Authors: A. A. Pasha, Z. Hussain, M. M. Alam, N. Kasim, K. Irshad, M. Ali, M. Waqas, W. A. Khan
Case Studies in Thermal Engineering 41 (2022) 102610
Impact Factor: 6.268
238. Marangoni forced convective thermally developed two-phase dusty flow of fluid with heat source/sink phenomenon
Authors: M. Waqas, M Nasir, M I. Khan, M. Boujelbene, S. Alshammari, N. Chouikhi and T. Rajeh
International Journal of Modern Physics B 37 (2023) 2350126
Impact Factor: 1.404
239. Diffusion of dual diffusive chemically reactive Casson nanofluid under Darcy-Forchheimer porosity and Robin conditions from a vertical convective surface: A comparative analysis using HAM and collocation procedures
Authors: M. Nasir, M. Waqas, N. Zamri, N. B. Khedher and K. Guedri
Computational Particle Mechanics https://link.springer.com/article/10.1007/s40571-022-00547-w
Impact Factor: 3.116
240. Impact of Darcy-Forchheimer-Brinkman model on generalized Eyring–Powell liquid subject to Cattaneo-Christov double diffusion aspects
Authors: A. Ahmad, N. Anjum, H. Shahid, M. Irfan, M. Waqas and W. A. Khan
International Journal of Modern Physics B https://doi.org/10.1142/S0217979223501734
Impact Factor: 1.404
241. Thermal performance analysis of Sutterby nanoliquid subject to melting heat transportation
Authors: N. Anjum, W. A. Khan, M. Ali, I. Hussain, M. Waqas, M. Irfan
International Journal of Modern Physics B https://doi.org/10.1142/S0217979223501850
Impact Factor: 1.404
242. Cattaneo–Christov heat-mass transfer rheology in third-grade nanoliquid flow confined by stretchable surface subjected to mixed convection
Authors: F. Wang, M. Waqas, W. A. Khan, B. M. Makhdoum and S. M. Eldin
Computational Particle Mechanics https://doi.org/10.1007/s40571-023-00579-w
Impact Factor: 3.116
243. Significance of bioconvection analysis for thermally stratified 3D Cross nanofluid flow with gyrotactic microorganisms and activation energy aspects
Authors: N. Anjum, W. A. Khan, M. Azam, M. Ali, M. Waqas and I. Hussain
Thermal Science and Engineering Progress 38 (2023) 101596
Impact Factor: 4.56
244. Analysis of tangent-hyperbolic rheological model considering nonlinear mixed convection, Joule heating and Soret-Dufour aspects from a stretchable convective stratified surface
Authors: A. A. Pasha, K. Irshad, S. Algarni, T. Alqahtani and M. Waqas
International Communications in Heat and Mass Transfer 140 (2023) 106519
Impact Factor: 6.782
245. Dynamics of ferromagnetic cross fluid flow capturing magnetic dipole and radiation aspects
Authors: M. Tabrez, A. Hobiny, M. Waqas, W. A. Khan and I. Hussain
Modern Physics Letters B (2023) https://doi.org/10.1142/S0217984923410063
Impact Factor: 1.7
246. Homotopy analysis of mixed convection flow of a magnetized viscoelastic nanofluid from a stretching surface in non-Darcy porous media with revised Fourier and Fickian approaches
Authors: M. Nasir, M. Waqas, O. A. Bég and N Zamri
Waves in Random and Complex Media (2023) https://doi.org/10.1080/17455030.2023.2178824
Impact Factor: 4.051
247. Computation of Sakiadis flow of an Eyring-Powell rheological fluid from a moving porous surface with a non-Fourier heat flux model
Authors: M. Aatif, M. Waqas, O. A. Bég, M. Zubair and A. Kadir
Waves in Random and Complex Media (2023) https://doi.org/10.1080/17455030.2022.2148012
Impact Factor: 4.051
248. Impact of Buongiorno’s nanofluid model on magnetically driven non-newtonian rheological fluid capturing chemical reaction effects
Authors: M. A. Sadiq, M. Waqas, T. Aziz and H. M. S. Bahaidarah
International Journal of Modern Physics B 37 (2023) 2350075
Impact Factor: 1.5
249. Chemically reactive magnetized tangent hyperbolic bidirectional nanofluid flow subject to interaction of gyrotactic moment of microorganisms and nanoparticles
Authors: Z. Hussain, W. A. Khan, M. Ali, M. Waqas, I. Kebail and S. Z. Abbas
Tribology International 187 (2023) 108659
Impact Factor: 6.2
250. Numerical study of dissipative SW/MWCNT-nanofluid coating flow from a stretching wall to a porous medium with shape factor effects
Authors: M. Waqas, M. S. Kausar, O. A. Bég, S. Kuharat, W. A. Khan and S. S. Abdullaev and B. M. Fadhl
International Journal of Hydrogen Energy (2023) https://doi.org/10.1016/j.ijhydene.2023.05.036
Impact Factor: 7.2
251. Dynamics of gyrotactic microorganisms for chemically reactive magnetized 3D Sutterby nanofluid flow comprising non-uniform heat sink-source aspects
Authors: Z. Hussain, W. A. Khan, T. Muhammad, H. A. Alghamdi, M. Ali and M. Waqas
Journal of Magnetism and Magnetic Materials 578 (2023) 170798
Impact Factor: 2.7
252. Significance of chemically reactive magnetized Eyring-Powell nanofluid comprising gyrotactic moment of microorganism and non-linear radiative analysis
Authors: Z. Hussain, W. A. Khan, M. Ali, T. Muhammad, H. Liu and M. Waqas
Journal of Magnetism and Magnetic Materials 581 (2023) 170955
Impact Factor: 2.7
253. Bioconvection transport of upper convected Maxwell nanoliquid with gyrotactic microorganism, nonlinear thermal radiation, and chemical reaction
Authors: S. Li, M. Nasir, M. Waqas, S. A. M. Abdelmohsen, S. M. Eldin, S. S. Abdullaev and W. A. Khan
Nanotechnology Reviews 12 (2023) 20220569
Impact Factor: 7.4
254. Significance of thermo-dynamical moment of ferromagnetic nanoparticles and bioconvection analysis for magnetized Carreau fluid under the influence of gyrotactic moment of microorganisms
Authors: M. Tabrez, W. A. Khan, T. Muhammad, I. Hussain and M. Waqas
Tribology International 186 (2023) 108633
Impact Factor: 6.2
255. Functional magnetic Maxwell viscoelastic nanofluids for tribological coatings- a model for stretching flow using the generalized theory of heat-mass fluxes, Darcy-Forchheimer formulation and dual convection
Authors: M. Nasir, M. Waqas, O. A. Bég, S. Znaidia, W. A. Khan and N. Zamri
Tribology International 186 (2023) 108610
Impact Factor: 6.2
256. Bioconvection aspects in magnetized Erying Powell fluid configured by suspension of ferromagnetic nanoparticles subject to gyrotactic moment of microorganisms
Authors: I. Hussain, W. A. Khan, M. Tabrez, M. Ali, M. Waqas, I. Boukhris and S. Z. Abbas
Tribology International 189 (2023) 108876
Impact Factor: 6.2
257. Stratified thermosolutal aspects in magnetized 3D tangent hyperbolic nanofluid flow contained oxytactic moment microorganisms
Authors: Z. Hussain, W. A. Khan, M. Azam, Y. Elmasry and M. Waqas
Tribology International 189 (2023) 108949
Impact Factor: 6.2
258. Thermal decomposition of hybrid nanofluid confined by radiated curved stagnated surface capturing partial slip effects
Authors: A. Abbasi, S. U. Khan, W. Farooq, S. Abdullaev, M. Gul, M. Waqas, R. Altuijri and M. I. Khan
Results in Engineering 19 (2023) 101393
Impact Factor: 5
259. Chemically reactive squeezed flow of Maxwell nanofluid confined by parallel stratified walls subjected to radiative flux
Authors: M. Waqas, M. S. Kausar, M. Nasir, K. B. Akram, W. A. Khan and N. Tamam
Tribology International 189 (2023) 108986
Impact Factor: 6.2
260. A computational study on entropy optimized nonlinear convective dual diffusive slip flow of rate type liquid under modern diffusion concepts
Authors: M. Z. Kiyani, S. H. Liaqat, M. Waqas, S. S. Abdullaev, W. A. Khan and N. Tamam
Tribology International 189 (2023) 108956
Impact Factor: 6.2
261. Chemically reactive magneto-bioconvection 3D flow of radiative williamson nanofluid containing oxytactic moment of microorganisms
Authors: Z. Hussain, W. A. Khan, M. Ali, M. Waqas and I. M. Ashraf
Tribology International 189 (2023) 108934
Impact Factor: 6.2
262. Analysis of magnetized micropolar fluid subjected to generalized heat-mass transfer theories
Authors: Y. Li, M. I. Anwar, N. M. Katbar, M. Prakash, M. Saqlain, M. Waqas, A. Wahab, W. Jamshed, M. R. Eid and A. M. Hassan
Open Physics 21 (2023) 20230117
Impact Factor: 1.8
263. Thermo-solutal dual diffusive flow of chemically reactive magneto couple-stress nanomaterial capturing robin conditions, transpiration and thermal generation/sink
Authors: M. A. Sadiq, M. Waqas, M. S. Amjad, T. Aziz and H. M. S. Bahaidarah
Case Studies in Thermal Engineering 50 (2023) 103507
Impact Factor: 6.8
264. Making decisions based on multiple criteria in developing a league season teaching strategy for understanding playing functionalities
Authors: H. U. A. Shankar, U. K. K. Nanjappa, S. Singh, M. Waqas, K. M. A. Elamin, S. S. Abdullaev and V. Govindan
Modern Physics Letters B (2023) 2341012
Impact Factor: 1.9
265. Darcy-Forchheimer mangetized flow based on differential type nanoliquid capturing Ohmic dissipation effects
Authors: M. Waqas, Y. Xu, M. Nasir, M. M. Alam, A. A. Pasha, K. Irshad, B. M. Fadhl and M. S. Kausar
Propulsion and Power Research 12 (2023) 443-455
Impact Factor: 5.3
266. Electro-magnetic visco-plastic nanofluid flow considering Buongiorno two-component model in frames of Darcy-Forchheimer porosity, transpiration and Joule heating
Authors: S. Li, M. Waqas, S. A. AlQahtani and M. I. Khan
Journal of Magnetics 28 (2023) 187-193
Impact Factor: 0.4
267. Interaction of gyrotactic moment of microorganisms and nanoparticles for magnetized and chemically reactive shear-thinning fluid with stratification phenomenon
Authors: Z. Hussain, W. A. Khan, M. Irfan, T. Muhammad, S. M. Eldin, M. Waqas, P. V S. Narayana
Nanoscale Advances 28 (2023) 6560-6571
Impact Factor: 4.6
268. Numerical analysis for 3D time-dependent Sutterby nanofluid flow capturing features of variable thermal conductivity and heat sink-source aspects
Authors: Z. Hussain, W. A. Khan, M. Ali and M. Waqas
Modern Physics Letters B (2023) 2341018
Impact Factor: 1.9
269. Analysis of thermal conductivity performance for magnetized Sutterby fluid capturing magnetic dipole and viscous dissipation aspects
Authors: W. A. Khan, M. Tabrez, I. Hussain, M. Ali and M. Waqas
Modern Physics Letters B (2023) 2341017
Impact Factor: 1.9
270. Impact of chemical processes on magnetized tangent hyperbolic nanofluid with bio-convection aspects
Authors: Z. Hussain, W. A. Khan, M. Irfan, H. Shahid, M. Ali, T. Muhammad and M. Waqas
Results in Engineering 20 (2023) 101615
Impact Factor: 5.0
271. Numerical computations for Darcy-Forchheimer-based dual convection reactive flow considering Casson nanomaterial by convected permeable surface
Authors: M. S. Kausar, M. Waqas, S. A. Shehzad, Kh. Hosseinzadeh, H. A. Hejazi, W. Mtaouaa
International Journal of Modern Physics B (2024) 2450426
Impact Factor: 1.7
272. A rheological and computational analysis on Buongiorno nanofluid model featuring magnetohydrodynamics
Authors: S. Li, Z. Asghar, M. Waqas, H. A. Hejazi, M. Zubair and D. Abduvalieva
International Journal of Modern Physics B (2024) 2550008
Impact Factor: 1.7
273. Computational analysis of magnetized Casson liquid stretching flow adjacent to a porous medium with Joule heating, stratification, multiple slip and chemical reaction aspects
Authors: M. Nasir, M. S. Kausar, M. Waqas, O. A. Beg and W. A. Khan
Numerical Heat Transfer, Part A: Applications (2024) 10.1080/10407782.2024.2319722
Impact Factor: 1.8
274. Thermo-solutal convective conditions impact in dual stratified stagnation-point flow of second-grade (SG) fluid with chemical reaction
Authors: M. Waqas, M. Ashiq, M. S. Kausar, S. U. Khan, H. A. Hejazi, S. Abdullaev and M. Medani
Case Studies in Thermal Engineering 57 (2024) 104237
Impact Factor: 6.8
275. Electro-fluid-dynamics (EFD) of soft-bodied organisms swimming through mucus having dilatant, viscous, and pseudo-plastic properties
Authors: Z. Asghar, R. A. Shah, M. Waqas and M. A. Gondal
International Journal of Modern Physics B (2024) 2550011
