Publications

Our research have been published in over 349 papers.

	Selected Publication (Since 2012)
151]]	Jahangir Alam, M. G. Murtaza, E.E. Tzirtzilakis and M. Ferdows, Duality and stability analysis of biomagnetic fluid flow and heat transfer with magnetic particles along a shrinking cylinder in presence of magnetic dipole, To appear, Applied Mathematics-A Chinese Journal, 2023.
150]]	M. G. Murtaza, J.C. Misra, E.E. Tzirtzilakis and M. Ferdows, Numerical study of Biomagnetic Maxwell fluid past a nonlinearly stretching sheet with considering magnetization and electrical conductivity, To appear, Journal of Mechanics in Medicine and Biology, 2023.
149]]	M. Ferdows, Asish Barman, O. Anwar Bég , MD Shamshuddin and Shuyu Sun, Local Non-Similar Solution for Non-Isothermal Electroconductive Radiative Stretching Boundary Layer Heat Transfer with Aligned Magnetic Field, Appl. Sci. 13, 4592, 2023.
148]]	Torikul Islam, M. Ferdows, MD. Shamshuddin, Marei Saeed Alqarni and Usman, Sisko Fluid Modelling and Numerical Convective Heat Transport Analysis over-stretching device with Radiation and Heat Dissipation, To appear, Numerical Heat Transfer, Part A: Applications, 2023.
147]]	M. Ferdows, Jahangir Alam, M. G. Murtaza, E.E. Tzirtzilakis, Effects of magnetic particles diameter and particle spacing on Biomagnetic flow and heat transfer over a linear/nonlinear stretched cylinder in the presence of magnetic dipole, To appear, Journal of Mechanics in Medicine and Biology, 2023.
146]]	Md Shamshuddin, Kanasogwa and M. Ferdows, Thermo-Solutal migrating heat producing and radiative Casson nanofluid flow via bidirectional stretching surface in the presence of bilateral reactions, To appear, Numerical Heat Transfer, Part A: Applications, 2023.
145]]	M. Ferdows and Faris Alzahrani, Numerical study of Gyrotactic Bioconvection in stretching flow of a variable viscosity nanofluid with buoyancy and power law wall effects, To appear, Waves in Random and Complex Media, https://doi.org/10.1080/17455030.2022.2162152, 2023.
144]]	Nayma Islam Nima, M. Ferdows and G. C. Shit, Chemical Reactions and Heat Generation Influence on Mixed Convection Flow with Gyrotactic Microorganisms over a Non-Isothermal Horizontal Surface, To appear, International Journal for Computational Methods in Engineering Science & Mechanics, https://doi.org/10.1080/15502287.2023.2186965 ,2023.
143]]	Faris Alzahrani, O. Anwar Bég and M. Ferdows, NUMERICAL SOLUTIONS FOR MAGNETO-CONVECTIVE BOUNDARY LAYER SLIP FLOW FROM A NONLINEAR STRETCHING SHEET WITH WALL TRANSPIRATION AND THERMAL RADIATION EFFECTS, To appear, Numerical heat transfer, Part-A, 2023.
142]]	M. H. Faruk, M. Ferdows and E. E. Tzirtzilakis, Hyperthermia temperature reduction in biomagnetic flow: Thermal transfer in Fe3O4–blood particle suspension with uniform and non-uniform effects, Phys. Fluids 35, 011902, 2023.
141]]	AKM Muktadir Ahmed , MD Shamshuddin , M Ferdows and Mohamed R Eid, Heat and mass transport through biaxial extending sheet with anisotropic slip and entropy/Bejan on the three-dimensional boundary layer hybrid nanofluid , J Process Mechanical Engineering, 1–14, 2022.
140]]	Abdulaziz Alsenafi and M. Ferdows, Similarity and Finite Difference Solution on Biomagnetic Flow and Heat Transfer of Blood-Fe3O4 Through a Thin Needle, J. of Mathematics, 2022, Article ID 1464695, https://doi.org/10.1155/2022/1464695, 2022.
139]]	Sadia Anjum Jumana, M. G. Murtaza, E. E. Tzirtzilakis and M. Ferdows, Dual Solution of Convective Biomagnetic Fluid Through Permeable Moving Flat Plate Considering Wall Transpiration and Magnetization , Journal of Mechanics in Medicine and Biology, 23, 1, 2350009, 2022.
138]]	Sadia Anjum Jumana, M. Ferdows and E. E. Tzirtzilakis, Bio-Magnetic flow of heat transfer over moving horizontal plate by the presence of variable viscosity and temperature, Journal of Mechanics in Medicine and Biology, Vol. 22, 2250063 (24 pages), 2022.
137]]	Jahangir Alam, Ghulam Murtaza, Eugenia N. Petropoulou, E. E. Tzirtzilakis and M. Ferdows, Applications of a group theoretical method on biomagnetic fluid flow and heat transfer for different shapes of Fe3O4 magnetic particles under the influence of thermal radiation and magnetic dipole over a cylinder, Mathematics, 10, 3520, https://doi.org/10.3390/math10193520, 2022.
136]]	M. Ferdows, Tahia Tazin, O. Anwar Bég and Tasveer A. Bég, DUEL SOLUTIONS IN HIEMENZ FLOW OF AN ELECTRO-CONDUCTIVE VISCOUS NANOFLUID CONTAINING ELLIPTIC SINGLE-/MULTI-WALL CARBON NANOTUBES WITH MAGNETIC INDUCTION EFFECTS, ASME open J of engineering, Vol. 1, 011040, 2022.
135]]	M. Ferdows, Bader Alshuraiaan and Nayema Islam Nima, Effects of non-Darcy mixed convection over a horizontal cone with different convective boundary conditions incorporating Gyrotactic microorganisms on dispersion, Scientific Report, Vol. 12, 16581, 2022.
134]]	S. M. Chapal Hossain, M. Ferdows , Md. Zavid Iqbal Bangalee and Md. Shariful Alam, Two-phase bio-nanofluid flow through a bifurcated artery with magnetic field interaction, Int. J. of Thermofluids, 15, 100194, 2022.
133]]	Md Robiul, M. Ferdows and JC Misra and M. G. Murtaza, Two-Dimensional thin layer convective flow and heat transfer of a dusty fluid on a nonlinear stretching sheet, Multiscale Science and Engineering, 10.1007/s42493-022-00080-1, 2022 .
132]]	Mustafizur Rahman, M. Ferdows, MD. Shamshuddin, Aimad Koulali and Mohamed R. Eid, Aiding (Opponent) Flow of Hybrid Copper-Aluminum Oxide Nanofluid Towards an Exponentially Extending (Lessening) Sheet with Thermal Radiation and Heat Source (Sink) Impact, Journal of Petroleum Science and Engineering, 215, 110649, 2022 .
131]]	M. Ferdows, MD. Shamshuddin, S.O. Salawu and Shuyu Sun, Thermal cooling performance of convective non-Newtonian nanofluid flowing with variant power-index across moving extending surface , Scientific report, 12, 8714, 2022 .
130]]	Jahangir Alam, M. G. Murtaza, E.E. Tzirtzilakis, and M. Ferdows, Magnetohydrodynamic and Ferrohydrodynamic interactions on the biomagnetic flow and heat transfer containing magnetic particles along a stretched cylinder , European Journal of Computational Mechanics, 31, 1, 1-40, 2022 .
129]]	Jahangir Alam, Ghulam Murtaza, E.E. Tzirtzilakis and M. Ferdows , Application of Biomagnetic Fluid Dynamics modelling for simulation of flow with magnetic particles and variable fluid properties over a stretching cylinder , Mathematics and Computers in Simulation, DOI: 10.1016/j.matcom.2022.04.008, 2022 .
128]]	MD. Shamshuddin, M. Ferdows, O. Anwar Bég, Tasveer A. Bég & H. J. Leonard, Computation of reactive thermosolutal micropolar nanofluid Sakiadis convection flow with gold/silver metallic nanoparticles, Waves in Random and Complex Media, https://doi.org/10.1080/17455030.2022.2051773, 2022 .
127]]	M. Ferdows, K. E. Hoque, M.Z.I. Bangalee and M. A. Xenos, Wall shear stress indicators influence the regular hemodynamic conditions in coronary main arterial diseases: Cardiovascular abnormalities, Computer Methods in Biomechanics and Biomedical Engineering, 10.1080/10255842.2022.2054660, 2022 .
126]]	M. Ferdows, Jahangir Alam, Ghulam Murtaza, Efstratios Em. Tzirtzilakis and Shuyu Sun, Biomagnetic flow with CoFe2O4 magnetic particles through an unsteady stretching/shrinking cylinder , Magnetochemistry, 8, 3, 27, 2022.
125]]	Shahina Akter, M. Ferdows, MD. Shamshuddin and Zailan Siri, Similarity solution for induced magnetic field boundary layer flow of metallic nanofluids via convectively inclined stationary/moving flat plate: Spectral Relaxation computation, , Zeitschrift für Angewandte Mathematik und Mechanik, 102: e202100179, 2022 ( Top cited article in 2020-2021).
124]]	K. Hoque, M. Ferdows, S. Sawall, E. Tzirtzilakis, and Michalis Xenos, Hemodynamic characteristics expose the atherosclerotic severity in coronary main arteries: one-dimensional and three-dimensional approaches , Physics of Fluids, 33, 121907, 2021.
123]]	Abdulaziz Alsenafi and M. Ferdows, Dual solution for double-diffusive mixed convection opposing flow through a vertical cylinder saturated in a Darcy porous media containing gyrotactic microorganisms , Scientific Report, 11, 19918, 2021.
122]]	SM Chapal, M. Ferdows, Shariful, Kasham, M Zavid, Shahidul and Gang, Two-Phase Flow Model Based Bubble Packing Algorithm for Optimization of Multiprobe Cryosurgery, Int. Comm. Heat and mass transfer, 127 , 105515, 2021.
121]]	Shahina Akter, M. Ferdows , Tasveer A. Bég, O. Anwar Bég ,A. Kadir and Shuyu Sun, Spectral relaxation computation of electroconductive nanofluid convection flow from a moving surface with radiative flux and magnetic induction, Journal of Computational Design and Engineering , 8, I4, 1158-1171, 2021.
120]]	Abdulaziz Alsenafi and M. Ferdows, Effects of Thermal Slip and Chemical Reaction on Free Convective Nanofluid from a Horizontal Plate Embedded in a Porous Media, Math Bio Sci and Eng., 18, 4, 4817-4833, 2021.
119]]	Adesanya, Yusuf, Rahimi and M. Ferdows, Thermal analysis for a gravity driven liquid flim along an inclined porous substrate, Journal of the Taiwan Institute of Chemical Engineers, 122, 93-97, 2021.
118]]	Abdulaziz Alsenafi, O. Anwar Bég, M. Ferdows, Tasveer A. Bég and A. Kadir, Numerical study of nano-bioflim station flow from a nonlinear stretching/shrinking surface with variable nanofluid and bioconvection transport properties, Scientific Report, 11, 9877, 2021.
117]]	M. Ferdows and Faris Alzahrani, Two-Dimensional thin layer convective flow with hear transfer from Magneto-hydrodynamic Uniform free convection flow driven by nonlinear stretching surface, Zeitschrift für Angewandte Mathematik und Mechanik (ZAMM), e202000103, http://doi.org/10.1002/zamm.202000103, 2021.
116]]	Alam Jahangir, Ghulam Murtaza, Efstratios Tzirtzilakis , Mohammad Ferdows, Biomagnetic Fluid Flow and Heat Transfer study of Blood with Gold nanoparticles over a Stretching Sheet in the presence of Magnetic Dipole, Fluids, Vol. 6, 113, 2021.
115]]	Rezwan, M. Ferdows, Md. Shamshuddin, OA Beg and A. Kadir, Computation of ferromagnetic/ non-magnetic nanofluid flow from a stretching cylinder with induction and curvature effects, Heat Transfer, 50, 6, 5240-5266, 2021.
114]]	M. Ferdows, MD Shamshuddin, S. O. Salawu and Khairy Zaimi, Numerical simulation for the steady nanaofluid boundary layer flow over a moving plate with suction and heat generation, SN Applied Science, 3, 2, 264, 2021.
113]]	K. Hoque, M. Ferdows, Stefan Sawall, E. Tzirtzilakis, and Michalis Xenos, The impact of haemodynamic factors in a coronary main artery to detect the atherosclerotic severity: single and multiple sequential stenoses cases, Physics of Fluids, 33, 3, 031903, 2021.
112]]	M. Ferdows, Faris Alzahrani and S. Adesany, Numerical Investigation of a convective boundary layer nanofluid flow with induced magnetic field, Physica A, 570, 125492, 2021.
111]]	Md. Zavid Iqbal Bangalee, Md. Mizanur Rahman, Mohammad Ferdows and Khairy Zaimi, Numerical Optimization of a CPU Heat Sink Geometry, CFD Letters, Vol. 13, No. 3, 1-15, 2021.
110]]	M. Ferdows, MD Shamshuddin, Khairy Zaimi, Computation of Steady Free Convective Boundary Layer Viscous Fluid Flow and Heat Transfer towards the Moving Flat subjected to Suction/Injection Effects, CFD Letters, Vol. 13, No. 3, 16-24, 2021.
109]]	M. Ferdows, Ghulam Murtaza, Jagadis C. Misra , Efstratios E. Tzirtzilakis and Faris Alzahrani, Dual solutions in boundary layer flow and heat transfer of biomagnetic fluid over a stretching/shrinking sheet in the presence of a magnetic dipole and prescribed heat flux, International Journal of Applied Electromagnetics Mechanics, Vol. 17, No. 5, 1-17, 2020.
108]]	M. Ferdows, Ghulam Murtaza, Jagadis C. Misra , Efstratios E. Tzirtzilakis and Abdulaziz Alsenafi, Dual solutions in biomagnetic fluid flow and heat transfer over a nonlinear stretching/shrinking sheet: application of lie group transformation method, Mathematical Biosciences and Engineering, Vol. 17, No. 5, 4852-4874, 2020.
107]]	M. Ferdows, MD Shamshuddin, Khairy Zaimi, Dissipative-Radiative Micropolar Fluid Transport in a Non-Darcy Porous Medium with Cross-Diffusion Effects, CFD Letters, Vol. 12, No. 7, 70-89, 2020.
106]]	Nayema Islam Nima, S.O. Salawu, M. Ferdows, MD. Shamshuddin, Abdulaziz Alsenafi and A. Nakayama, Melting effect on Non-newtonian fluid flow in Gyrotactic Microorganism saturated non darycy porous media with variable fluid properties, Applied Nanoscience, Vol. 10, 3911–3924, 2020.
105]]	Nayema Islam Nima, M. Ferdows, S.O. Adesanya and Faris Alzahrani, Double diffusivity heat generation effects on bio-convection process embedded in a vertical porous surface with variable fluid properties, Journal of Thermal Analysis and Calorimetry, https://doi.org/10.1007/s10973-020-09822-52020.
104]]	M. Ferdows, Amran Hossan and M.Z. I. Bangalee and Shuyu Sun and Faris Alzahrani, Stability theory of Nano-fluid over an exponentially stretching cylindrical surface containing Microorganisms, Scientific Report, Vol. 10, 17004, 2020.
103]]	M.G.Murtaza, E.E. Tzirtzilakis , M. Ferdows and Faris Alzahrani, Numerical study of blood flow and heat transfer through stretching cylinder in the presence of a magnetic dipole, Zeitschrift für Angewandte Mathematik und Mechanik, DOI: 10.1002/zamm.201900278,2020.
102]]	[1] Z. Haider, A. Haleem, R.u.S. Ahmad, U. Farooq, L. Shi, U.P. Claver, K. Memon, A. Fareed, I. Khan, M.K. Mbogba, S. M. Chapal Hossain, F. Farooq, W. Ali, M. Abid, A. Qadir, W.-D. He, J. Luo, G. Zhao. Highly porous polymer cryogel based tribopositive material for high-performance triboelectric nanogenerators, Nano Energy, 2020, 68: 104294.
101]]	M. Ferdows, Faris Alzahrani and Shuyu Sun, Dual solution of boundary-layer flow driven by variable plate and streaming free velocity, Advances in Mechanical Engineering, , Vol. 12, No. 7, 1-7, 2020.
100]]	K. E. Hoque , M. Ferdows, S. Sawall and E. E. Tzirtzilakis, The effect of hemodynamic parameters in patient-based coronary artery models with serial stenoses: normal and hypertension cases, Computer Methods in Biomechanics and Biomedical Engineering, Vol. 23, No. 9, 467-475, 2020.
99]]	Nayema Islam Nima, M. Ferdows, O. Anwar Bég, S. Kuharat and Faris Alzahrani Computation of Gyrotatic Free-Forced Bioconvection with Oxygen Diffusion in near wall transport in a porous medium fuel cell, International Journal of Biomathematics, https://doi.org/10.1142/S1793524520500266, 2020.
98]]	O, Anwar Beg, M. Ferdows, M. Enamul Karim, M. Maruf Hasan, T.A. Beg, MD. Shamshuddin, A. Kadir, Computation of non-isothermal thermo-convective micropolar fluid dynamics in a Hall MHD generator system with non-linear distending wall, International Journal of Applied and Computational Mathematics, Vol. 6, 42, 2020.
97]]	Nabila Zaman, M. Ferdows, M. A. Xenos, K. E. Hoque and E. E. Tzirtzilakis, Effect of Angle Bifurcation and Stenosis in Coronary Arteries: An Idealized Model Study, Biomed Research Journal, Vol. 4, No. 2, 220-234, 2020.
96]]	M. Ferdows and Faris Alzahrani, Similarity solution of MHD slip with energy mass transport through chemically reacting stretching permeable solid surface in porous media with variable properties, Physica A, Vol. 545, Article ID 124255, 2020.
95]]	M. Ferdows and Faris Alzahrani, Dual solutions of nanaofluid forced convective flow with heat transfer and porous media past a moving surface, Physica A, Physics A, Vol. 551, 124075,2020.
94]]	M. G. Murtaza, E. E. Tzirtzilakis and M. Ferdows, Stability and Convergence analysis of biomagnetic fluid flow over a stretching sheet in the presence of magnetic field, Symmetry, 12, 253, 2020.
93]]	Reddy M and M. Ferdows, Species and thermal radiation on micropolar hydromagnetic dusty fluid flow across a paraboloid revolution, Journal of Thermal Analysis and Calorimetry, https://doi.org/10.1007/s10973-020-09254-1, 2020.
92]]	O. Anwar Bég, T. A. Bég, I. Karim, M. S. Khan, M. Ferdows and Faris Alzahrani, Study of Non-isothermal Incompressible Flow and Heat flux of Nano-Ferrofluid with Induced Magnetic Induction, International Communications in Heat and Mass Transfer, Vol. 109, No. 3, 104352, 2019.
91]]	O. Anwar Bég, T. A. Bég, I. Karim, M. S. Khan, M. M. Alam, M. Ferdows, MD. Shamshuddin, Numerical study of magneto-convective heat and mass transfer from inclined surface with Soret diffusion and heat generation effects: A model for ocean magnetohydrodynamics energy generator fluid dynamics, Chinese J. of Physics, Vol. 60, 167-179, 2019.
90]]	M. Ferdows, Reddy M, Faris Alzahrani, Shuyu Sun, Two-Dimensional Gyrotactic Microorganisms flow of hydromagnetic power law nanofluid past an elongated sheet, Advances in Mechanical Engineering, Vol. 11, No. 11, 1-17, 2019.
89]]	M. Ferdows, Reddy M, Faris Alzahrani, Shuyu Sun, Heat and mass transfer in a viscous nanofluid contain gyrotactic micro-organism over a stretching cylinder, Symmetry, 11, 1131, 2019.
88]]	M. Ferdows, Hossam A. Nabwey, A.M. Rashad , M.J Uddin and Faris Alzahrani, Boundary Layer Flow Of A Nanofluid Past A Horizontal Flat Plate Saturating Darcy Porous Medium: Lie Group Approach , Journal of Mechanical Engineering Science: Part-C, Vol. 0, No. 0, 1-9, 2019.
87]]	M. G. Murtaza, J. C. Misra, E. E. Tzirtzilakis, M. Ferdows, Three dimensional Biomagnetic Maxwell fluid flow over a stretching surface in presence of heat source/sink , International Journal of Biomathematics, Vol. 12, No. 3, 1950036–20, 2019.
86]]	M. Ferdows, M. Das, O. A. Beg, Modeling Magnetic Nano-Polymer flow with induction and nano-partiocle solid volume fraction effects: Solar Magnetic Nano-Polymer Fabrication Simulation , J. of Nanomaterials, Nanoengineering and Nano system, Vol. 233, No. 1, 27-45, 2019.
85]]	M. G. Murtaza, J. C. Misra, E. E. Tzirtzilakis, M. Ferdows, Three dimensional Biomagnetic Maxwell fluid flow over a stretching surface in presence of heat source/sink , International Journal of Biomathematics, Vol. 12, No. 3, 1950036–20, 2019.
84]]	Y. Huang, S. M. Chapal Hossain, K. Memon, G. Zhao, J. Peng, J. Wang, Z. Shu, K. Ma, L. Shen, F. L. Gao, Y. Cao. A simple and reliable cooling approach for the cryopreservation of hematopoietic stem cells: The passive cooling rate-controlled technique, CryoLetters, 2019, 40(3): 181-186.
83]]	U. Farooq, Z. Haider, X. M. Liang, K. Memon, S. M. Chapal Hossain, Y. Zheng, H. Xu, A. Qadir, F. Panhwar, S. Dong, G. Zhao, J. Luo. Surface-Acoustic-Wave-Based Lab-on-Chip for Rapid Transport of Cryoprotectants across Cell Membrane for Cryopreservation with Significantly Improved Cell Viability, Small, 2019, 15: 1805361.
82]]	Y. Huang, K. Memon, S. M. Chapal Hossain, J. Peng, J. Wang, Z. Shu, K. Ma, L. Shen, F. Liu Gao, Y. Cao, P. Hu, G. Zhao. Heat transfer analysis of a self-designed cooling rate controllable device and its application for cryopreservation of biological cells, International Journal of Heat and Mass Transfer, 2019, 136: 709-718.
81]]	S. A. Rashid, Z. Haider, S. M. Chapal Hossain, K. Memon, F. Panhwar, M. K. Mbogba, P. Hu, G. Zhao. Retrofitting low-cost heating ventilation and air-conditioning systems for energy management in buildings, Applied Energy, 2019, 236: 648-661.
80]]	S. A. Rashid, Z. Haider, S. M. Chapal Hossain, K. Memon, F. Panhwar, M. K. Mbogba, P. Hu, G. Zhao. Retrofitting low-cost heating ventilation and air-conditioning systems for energy management in buildings, Applied Energy, 2019, 236: 648-661.
79]]	Yong-LaiZheng, DonLiu, Hui-LiHan, Mohammad Ferdows, Spectral element simulations of interactive particles in a fluid , Computers & Mathematics with Applications, Vol. 77, 2029-2050, 2019.
78]]	Rabeya Akter, M. Ferdows, Akio Miyara, Effect of Internal Heat Generation and Concentration Change on Free Convection Boun,dary Layer from Vertical Flat Plate Embedded in Porous Medium , Journal of Engineering Thermophysics, Vol. 28, No. 3, 1-21, 2019.
77]]	Tanvir Ahmed, Md. Mahmud Alam, M. Ferdows Chemically Reacting Ionized Fluid Flow through a Porous Medium along an Impulsively Started Permeable Vertical Plate with Induced Magnetic Field and Viscous Dissipation, Int. J. of Applied Mechanics and Engineering. Vol. 24 , No. 1, 5-36, 2019.
76]]	M. G. Murtaza, E. E. Tzirtzilakis, M. Ferdows, Numerical solution of three dimensional unsteady biomagnetic flow and heat transfer through stretching/shrinking sheet using temperature dependent magnetization, Archives of Mechanics, Vol. 70, No. 2, 161–185, 2018.
75]]	K. X. Zhu, S. M. Chapal Hossain, F. Panhwar, Z. Haider, P. Hu, G. Zhao. Water-Transport and Intracellular Ice Formation of Porcine Adipose-Derived Stem Cells during Freezing, CryoLetters, 2018, 39(4): 263-268.
74]]	K. X. Zhu, S. M. Chapal Hossain , Y. F. Li, F.Q. Yuan, H. Peng, Z. Gang. A Smart Box with Adjustable Cooling Rate for Cryopreservation, CryoLetters, 2018, 39(5): 331-335.
73]]	F. Panhwar, Z. Chen, S. M. Chapal Hossain, M. Wang, Z. Haider, K. Memon, P. Chen, G. Zhao. Near-infrared laser-mediated modulation of ice crystallization by two-dimensional nanosheets enables high-survival recovery of biological cells from cryogenic temperatures, Nanoscale, 2018, 10: 11760-11774.
72]]	S. M. Chapal Hossain, X. Zhang, Z. Haider, P. Hu, G. Zhao. Optimization of prostatic cryosurgery with multi-cryoprobe based on refrigerant flow, Journal of Thermal Biology, 2018, 76: 58-67.
71]]	M. K. Mbogba, Z. Haider, S. M. Chapal Hossain, D. Huang, K. Memon, F. Panhwar, Z. Lei, G. Zhao. The application of convolution neural network based cell segmentation during cryopreservation, Cryobiology, 2018, 85: 95-104.
70]]	S. M. Chapal Hossain, X. Zhang, Z. Liu, Z. Haider, K. Memon, F. Panhwar, M. K. Mbogba, P. Hu, G. Zhao. Evaluation effect of magnetic field on nanofluid flow through a deformable bifurcated arterial network, International Communications in Heat and Mass Transfer, 2018, 98: 239-247.
69]]	M. Ferdows and Don Liu, Natural convective flow of a Magneto-micropolar fluid along a vertical plate, Propulsion and power Research. Vol. 7, No. 1, 43–51, 2018 .
68]]	M. G. Murtaza, E. E. Tzirtzilakis, M. Ferdows , Similarity Solutions of Nonlinear Stretched Biomagnetic Flow and Heat Transfer with Signum Function and Temperature Power Law Geometries, International Journal of Mathematical and Computational Sciences, Vol. 12 , No. 2, 9–14, 2018 .
67]]	Md. Ghulam Murtaza; Efstratios Em. Tzirtzilakis and M. Ferdows , Effect of electrical conductivity and magnetization on the biomagnetic fluid over a stretching sheet, Zeitschrift fuer Angewandte Mathematik und Physik (ZAMP), Vol. 68, No. 4, 93-107, 2017 .
66]]	Don Liu, Arden Moore and M. Ferdows , Spectral element simulations of 3-D convective heat transfer , , Int. J. of Heat and Mass Transfer, Vol. 111, 1023-1038, 2017 .
65]]	N. Sandeep, Ram Prakash Sharma and M. Ferdows , Enhanced heat transfer in unsteady magnetohydrodynamic nanofluid flow embedded with aluminum alloy nanoparticles , J. of Molecular liquids, Vol. 234, 437-443, 2017.
64]]	M. M. Haque, M. Ferdows and M. M.Alam, Explicit ﬁnite diﬀerence and steady-state solutions of heat and mass transfer ﬂow from a vertical porous plate with thermal diﬀusion and induced magnetic ﬁeld, Acta Techanica, Vol. 62,, No. 1, 1-14, 2017.
63]]	Y. Li, G. Zhao, S. M. Chapal Hossain, F. Panhwar, W. Sun, F. Kong, C. Zang, Z. Jiang. Measurement of Thermal Conductivities of Two Cryoprotective Agent Solutions for Vitreous Cryopreservation of Organs at the Temperature Range of 77 K–300 K Using a Thermal Sensor Made of Microscale Enamel Copper Wire, Biopreservation and Biobanking, 2017, 15: 228-233.
62]]	X. Zhang, S. M. Chapal Hossain, G. Zhao, B. Qiu, X. He. Two-phase heat transfer model for multiprobe cryosurgery, Applied Thermal Engineering, 2017, 113: 47-57.
61]]	Y. Zhang, G. Zhao, S. M. Chapal Hossain, X. He. Modeling and experimental studies of enhanced cooling by medical gauze for cell cryopreservation by vitrification, International Journal of Heat and Mass Transfer, 2017, 114: 1-7.
60]]	[6] Z. Jiang, G. Zhao, S. M. Chapal Hossain, D. Gao. Coupled experimental-modeling analyses of heat transfer in ex-vivo VS55-perfused porcine hepatic tissue being plunged in liquid nitrogen for vitreous cryopreservation, International Journal of Heat and Mass Transfer, 2017, 106: 970-979.
59]]	M. Ferdows and D. Liu, Similarity solutions on mixed convection heat transfer from a horizontal surface saturated in a porous medium with internal heat generation, Int. J. of Applied Mechanics and Engineering, Vol. 22,, No. 1, 253-258, 2017.
58]]	M. Ferdows , A. Afify and E.E. Tzirtzilakis , Hall Current and Viscous Dissipation Effects on Boundary layer Flow of heat transfer past a Stretching Sheet, International Journal of Applied and Computational Mathematics, DOI 10.1007/s40819-017-0309-5, 2017.
57]]	M. Ferdows, Tania S. Khalequ ,E.E. Tzirtzilakis and Shuyu Sun, Effects of radiation and thermal conductivity on MHD boundary layer flow with heat transfer along a vertical stretching sheet in a porous medium, J of the Engineering Thermophysics. Vol. 20, No. 1, 1-11, 2017.
56]]	Md. Shariful Islam, Mir Shariful Islam., Khodadad Khan, A. F. M., Bangalee, M.Z.I, A Procedure to Fit an Interpolating Curve to a Set of Logistic Data , Dhaka University Journal of Science, Vol. 65, No. 2, pp. 107-110, 2017.
55]]	M. Ferdows, D. Liu and B. R. Ramachandran, 2-D Magnetohydrodynamics boundary layer flow of Cu-Ag-TiO3-Al2O3-H2O-C2H6O2 mixtures : Explicit Numerical and Stability approach, Journal of Modern Mechanical Engineering and Technology, Vol. 3, 41-59, 2016..
54]]	Ifsana karim, M.S. Khan, 1M.M. Alam, M.A. Rouf, M. Ferdows and E.E. Tzirtzilakis, Transient heat and mass transfer flow through salt water in an ocean by inclined angle , TECHNOLOGICAL ENGINEERING, Vol. XIII, No. 2, 21-27, 2016.
53]]	O.A. Beg, M. Ferdows , E.T.A Beg, T. Ahmed, M. Wahiduzzaman, M. Alam, Numerical investigation of radiative optically transient magnetized reactive transport phenomena with cross diffusion, dissipation and wall mass flux effects, J of the Taiwan Institute of Chemical Engineers, Vol. 66, 12-26, 2016.
52]]	M. Ferdows and Don Liu, Inertia effect on free convection over horizontal surface in a porous medium with a variable wall heat flux and variable wall temperature containing Internal heat generation, J of Physical Mathematics, Vol. 7, No. 2, 2016.
51]]	M. Ferdows, Tania S. Khaleque and M.Z.I. Bangalee, Similarity Solution on MHD Boundary Layer over Stretching Surface Considering Heat Flux , International J. of Heat and Technology. Vol. 34, No. 3, 521-526, 2016.
50]]	M. Ferdows and K. Vajravelu, MHD convection heat and mass transfer at a stretching sheet in a saturated porosity medium, Acta Technica. Vol. 61, No. 1, 1-15, 2016.
49]]	M. Ferdows, MHD flow and heat transfer of a power-law non-Newtonian nanofluid (Cu-H2O) over a vertical stretching sheet, Journal of Applied Mechanics and Technical Physics.Vol. 57, No. 4, 603-610, 2016
48]]	A. C.Fowler, P. D. Howell, and Tania S. Khaleque,Convection of a fluid with strongly temperature and pressure dependent viscosity, Geophys. Astrophys. Fluid Dyn., Vol 110 (2), pp. 130-165, 2016.
47]]	M. S. Alam, S. M. Chapal Hossain, M. M. Rahman. Transient thermophoretic particle deposition on forced convective heat and mass transfer flow due to a rotating disk, Ain Shams Engineering Journal, 2016, 7:441-452.
46]]	Jashim Uddin, M. Ferdows, Mohammad Mehdi Rashidi and Amir Basiri Parsa,M Group analysis and numerical solution of slip flow of a nanofluid in porous media with heat transfer, Progress in computation in fluid dynamics, Vol. 16, No. 3, 190-200, 2016.
45]]	M. Ferdows , Hamad MAA and Mohamed Ali, Lie group analysis on Brownian motion and thermophoresis effect on free convective boundary-layer flow on a vertical cylinder embedded in a nanofluid-saturated porous medium, Journal of Applied Mathematics , Speical issue on Computational Science in Smart Grids and Energy Systems, Vol. 2015, Article ID 741352, 6 pages, 2015.
44]]	Tania S. Khaleque, A. C. Fowler, P. D. Howell and M Vynnycky, Numerical studies of thermal convection with temperature- and pressure-dependent vis-cosity at extreme viscosity contrasts, Phys. Fluids, Vol. 27 (7), 076603, 2015
43]]	Md. Afikuzzaman, M. Ferdows , Md. Mahmud Alam, Unsteady MHD casson fluid flow through a parallel plate with hall current, Procedia Engineering, Vol. 105, 287-293, 2015.
42]]	Bangalee, M.Z.I, Effects of window position in vertical direction on wind driven natural cross ventilation, Progress in Computational Fluid Dynamics, An International Journal, Vol. 15, No. 3, pp. 177-185, 2015.
41]]	M. S. Alam, S. M. Chapal Hossain, M. M. Rahman. Effects of temperature dependent fluid properties and variable Prandtl number on the transient convective flow due to a porous rotating disk, Meccanica, 2014, 49(10): 2439-2451.
40]]	A. Afify, Md. Jashim Uddin and M. Ferdows, Scaling group transformation for MHD boundary layer flow over a permeable stretching sheet in the presence of slip flow with Newtonian heating effects, Applied Mathematics and Mechanics, Vol. 35, No. 11, 1375-1386, 2014.
39]]	B.I. Olajuwon , J.I. Oahimire and M. Ferdows , Effect of thermal radiation and Hall current on heat and mass transfer of unsteady MHD flow of a viscoelastic micropolar fluid through a porous medium, Engineering Science and Technology, an International Journa, Vol. 17, No. 4, 185-193, 2014.
38]]	M. Ferdows , SM Chapal Hossain and A. Afify, Boundary layer flow and heat transfer of a nanofluid over a permeable unsteady stretching sheet with viscous dissipation, Journal of Engineering Thermophysics, Vol. 23, No. 3, 216-228, 2014.
37]]	Mohammad Mehdi Rashidi, M. Ferdows, Amir Basiri Parsa and Shirley Abelman, MHD Natural Convection with Convective Surface Boundary Condition over a flat plate, Abstract and Applied Analysis: Special Issue, Mathematical Methods and Models in Natural Sciences, Vol. 2014, , 1-10, 2014.
36]]	Md Mainul Hoque, M.Wahiduzzaman, M. M. Alam, M. Ferdows and Osman A Beg, Spectral Numerical Simulation of Magneto-Physiological Laminar Dean Flow, Journal of Mechanics in Medicine and Biology, Vol. 14, No. 4, 1-8, 2014.
35]]	M. Ferdows, Shamima Islam and O.A. Beg, Numerical simulation of Marangoni Magnetohydrodynamic Bio-Nanofluid convection from a Non-isothermal surface with Magnetic Induction effects: A Bio-Nanomaterial Manufacturing Transport Model , Journal of Mechanics in Medicine and Biology, Vol. 14, No. 3, 1-32, 2014.
34]]	Mohammad Wahiduzzaman, Md. Kamruzzaman ,Md. Mahmud Alam and M. Ferdows, Magnetic field Effect on Fluid Flow through a Rotating Rectangular Straight Duct with Large Aspect Ratio, Progress in computation in fluid dynamics, Vol. 14, No. 6, 398-405, 2014.
33]]	M. Ferdows and Raushan Ara Quadir, Magnetic Natural convection flow along insulated plate with variable thermal conductivity, Advances and Applications in Fluid Mechanics. Vol. 15, No. 1, 1-15, 2014.
32]]	Md. Shakhaoath Khan, Ifsana Karim, M.M. Alam, M. Ferdows and O.A. Beg, Explicit Numerical study of Unsteady Hydromagnetic Mixed Convective Nanofluid flow from an Exponential Stretching sheet in Porous media, Applied Nanoscience, Vol.4, 943-957, 2014.
31]]	M. Wahiduzzaman,M. Mahmud Alam, M. Ferdows ,S. Sivasankaran and O. Anwar Bég, Spectral numerical study of Non-isothermal flow through a rotating rectangular cross section, International Journal of Applied Mathematics and Mechanics, Vol.0, No. 2, 61-78, 2014.
30]]	M. Ferdows, Zavid Iqbal Bangalee and Raushan Ara Quadir, Flow over a streaming stretching surface with slip boundary conditions and Suction/injection effects, Advances in Theoretical and Applied Mechanics, Vol.7, No. 1, 39-52, 2014.
29]]	Zavid Iqbal Bangalee, Jiun-Jih Miau, San-Yih Lin and M. Ferdows, Effects of lateral window position and wind direction on wind driven natural cross ventilation of a building: A computational approach, Journal of Computational Engineering, Vol. 2014, 1-15, 2014.
28]]	Mohammad Mehdi Rashidi, Ebrahim Momoniat, M. Ferdows and A. Basiri Parsa, Lie Group Solution for Free Convective Flow of a Nanofluid Past a Chemically Reacting Horizontal Plate in Porous Media, Mathematical Problems in Engineering, Vol. 2014, 1-21, 2014.
27]]	Bangalee, M.Z.I., Miau, J.J., Lin, S.Y. Ferdows, M., 2014, 'Effects of Lateral Window Position and Wind Direction on Wind-Driven Natural Cross Ventilation of a Building: A Computational Approach', Journal of Computational Engineering, Vol. 2014, pp. 1-15.
26]]	Bangalee, M.Z.I., Miau, J.J., Lin, S.Y., Yang, J.H., 2013, 'Flow visualization, PIV measurement and CFD calculation for fluid-driven natural cross-ventilation in a scale model', Energy and Buildings, Vol. 66, pp. 306-314.
25]]	Bangalee, M.Z.I., Miau, J.J., Lin, S.Y., 2013, 'Computational techniques and a numerical study of a buoyancy-driven ventilation system', International Journal of Heat and Mass Transfer, Vol. 65, pp. 572-583.
24]]	Osman A Beg, Md Mainul Hoque, Md Mahmud Alam and M. Ferdows, Numerical simulation of Dean number and curvature effects on Magneto-Biofluid flow through a curved duct, Journal of Engineering in Medicine, Vol. 277, No. 11, 1155-1170, 2013.
23]]	M. Ferdows, Md. Shakhaoath Khan and O. Anwar Bég , Numerical study of Transient Magnetohydrodynamic Radiative Free Convection Nanaofluid flow from a Stretching permeable surface, Journal of Process Mechanical Engineering, Vol. 0, No. 0, 1-16, 2013.
22]]	M. Ferdows, Shamima Islam and Raushan Ara Quadir, Similarity solutions of Marangoni heat transfer flow of water based nanofluid containing nanoparticles with variable viscosity and thermal conductivity, International Review of Mechanical Engineering, Vol. 7, No. 4, 692-697, 2013.
21]]	Mohammad Wahiduzzaman, Md. Mahmud Alam , M. Ferdows, S. Sivasankaran, Non-Isothermal Flow through a Rotating Straight Duct with Wide Range of Rotational Parameter and Pressure Driven parameter, Computational Mathematics and Mathematical Physics, Vol. 53, No. 10, 1571–1589, 2013.
20]]	Md. Rabiul Awual, Ismail M. M. Rahman, Tsuyoshi Yaita, Md. Abdul Khalequ and M. Ferdows, pH dependent Cu (II) and Pd(II) ions detection and removal from aqueous media by an efficient mesoporous adsorbent, Chemical Engineering Journal, Vol. 236, 100-109, 2013.
19]]	Md. Rabiul Awual, Md. Abdul Khalequ, M. Ferdows, A.M. Sarwaruddin Chowdhury and Tsuyoshi Yaita, Rapid recognition and recovery of gold(III) with functional ligand immobilized novel mesoporous adsorbent, Microchemical Journal, Vol. 110, 591-598, 2013.
18]]	Mohammad Wahiduzzaman, Md. Kamruzzaman, Md. Mahmud Alam and M. Ferdows, Magnetic Effect on Direct Numerical Simulations of Fluid Flow through a Rotating Rectangular Straight Duct, International Journal of Applied Electromagnetics and Mechanics, Vol. 42, 327-342, 2013.
17]]	Md. Shakhaoath Khan, Md. Mahmud Alam and M. Ferdows, Effects of Magnetic field on Radiative flow of a Nanofluid past a Stretching Sheet, Procedia Engineering, Vol. 56, 316-322, 2013.
16]]	M. Ferdows, Steady Laminar Boundary Layer Flow Over An Impulsively Stretching Surface Enclosed By Strong Magnetic Field, Procedia Engineering, Vol. 56, 281-286, 2013.
15]]	M. Ferdows, Md. Jashim Uddin, M.M. Rashidi, N. Rahimzadeh, Numerical Analysis of Mixed Convection over Horizontal Moving Porous Flat Plate by the Method of One Parameter Continuous Group Theory, International Journal of Numerical Methods for Heat and Fluid Flow, Vol. 23, No. 5, 729-749, 2013.
14]]	Md. Kamruzzaman, Mohammad Wahiduzzaman, Md. Mahmud Alam, M. Ferdows, Motaleb Hossain and Raushan Ara Quadir, Numerical Solution of Fluid Flow through a Rotating Rectangular Straight Duct with Magnetic Field, International Journal of Mechanical Engineering, Vol. 2, No. 2, 69-86, 2013.
13]]	M. Ferdows, Md. Jashim Uddin and Tania S. Khaleque, Double diffusion, slips and variable diffusivity effects on combined heat mass transfer with variable viscosity via a point transformation, Progress in computation in fluid dynamics, Vol. 13, No. 1, 54-64, 2013.
12]]	M. Ferdows, Md. Jashim Uddin and A. Afify, Scaling group transformation for MHD boundary layer free convective heat and mass transfer flow past a convectively heated nonlinear radiating stretching sheet, International Journal of heat and mass transfer, Vol. 56, 181-187, 2013.
11]]	M.M. Haque, Md. Mahmud Alam, M. Ferdows and Qasem M. Al-Mdallal, Numerical simulation and stability analysis on MHD Free Convective Heat and Mass Transfer Unsteady Flow through a Porous Medium in a Rotating System with Induced Magnetic Field, International Journal of Applied Electromagnetics and Mechanics, Vol. 41, 121-141, 2013.
10]]	M. Ferdows, Preetom Nag, A. Postelnicu and K. Vajravelu, Hydro-magnetic convection heat transfer in a Micropolar flid over a vertical plate, Journal of Applied Fluid Mechanics, Vol. 6, No. 2, 285-299, 2013.
9]]	Md. Zavid Iqbal Bangalee, M.Z.I.,, Lin, S.Y., Miau, J.J., 2012 'Wind driven natural ventilation through multiple windows of a building: A computational approach', Energy and Buildings Vol. 45, pp. 317-325.
8]]	W.A. Khan, M.A.A. Hamad and M. Ferdows, Heat transfer analysis for Falkner–Skan boundary layer nanofluid flow past a wedge with convective boundary condition considering temperature dependent viscosity, Journal of Nanoengineering and Nanosystems, Vol. 0, No. 0, 1-9, 2012.
7]]	M. Ferdows, Md. Shakhaoath Khan, Md. Mahmud Alam, and Shuyu Sun, MHD mixed convection boundary layer flow of a nanofluidthrough a porous medium due to an exponentially stretching sheet, Mathematical Problems in Engineering, Vol. 3, No. 7, 2551-2557, 2012.
6]]	Esrat Jahan, M. Ferdows, M.A.A. Hamad and Adrian postelnicu, Magneto micropolar flow considering weak concentration over a vertical porous surface in the presence of viscous dissipation and ohomic heating: Effects of Hall and ion-slip currents, Progress in computation in fluid dynamics, Vol. 12, No. 6, 415-426, 2012.
5]]	M.A.A. Hamad and M. Ferdows, Similarity solutions to the Viscous flow and heat transfer of nanofluid over a nonlinearly stretching sheet, Journal of Applied Mathematics and Mechanics, Vol. 33, No. 7, 1-8, 2012.
4]]	Md. Ziaul Haque, Md. Mahmud Alam, M. Ferdows and A. Postelnicu, Micropolar Fluid Behaviors on Steady MHD Free Convection and Mass Transfer with Constant Heat and Mass Fluxes, Joule Heating, Viscous Dissipation and Thermal Diffusion, Journal of king saud engineering science, Vol. 24, 71-84, 2012.
3]]	M.M. Rashidi, N. Rahimzadeh, M. Ferdows, Md. Jashim Uddin, Anwar Beg, Group theory and differential transform analysis of mixed convective heat and mass transfer from a horizontal surface with chemical reaction effects, Chemical Engineering Communications, Vol. 199, 1012 – 1043, 2012.
2]]	Asma Begum, Md. Abdul Maleque, M. Ferdows and Masahiro OTA, Pressure effects on unsteady free convection and heat transfer flow of an incompressible fluid past a semi-infinite inclined plate with impulsive of uniformly accelerated motion, Applied Mathematical Sciences, Vol. 6, No. 68, 3367 – 3379, 2012.
1]]	M.A.A. Hamad and M. Ferdows, Similarity solution of boundary layer stagnation point flow towards a heated porous stretching sheet saturated with a nanofluid with heat absorption/generation and suction/blowing: A lie group analysis, Communication in nonlinear simulation and mechanics, Vol.17, No. 1, P. 132-140, 2012.

	Chapters in Books
5]]	Md. Ghulam Murtaza; Efstratios Em. Tzirtzilakis and M. Ferdows , Three dimensional biomagnetic flow and heat transfer over a stretching surface with variable fluid properties , Advances in Mathematical Methods and High Performance Computing, Advances in Mechanics and Mathematics 41 , Springer , 403-414, 2019.
4]]	Rabiul Awal, M. Ferdows, MG. Murtaza and E.E.Tzirtzilakis, Effect of Mixed convective parameter on flow and heat transfer over a linear stretching sheet in a Biomagetic fluid with magnetization , Lambert Academic Publishing, 2018. ,
3]]	M. Ferdows and Md. Shakahat Hossain, Local Non-similar solution of induced magnetic boundary layer flow with radiative heat flux, , Flow and transport in subsurface environment, Chapter-12, pp. 343-365, Springer, 2018. ,
2]]	M. Ferdows, MHD boundary layer flow with heat and mass transfer in a porous medium over an exponentially stretching surface in the presence of a chemical reaction, Chapter- 13, 395-418, 2013, Focus on Porous Media Research, Nova Science Publishers Inc., USA,
1]]	M.Sattar and M. Ferdows, The effects of Hall and Joule currents and variable properties on an unsteady MHD laminar convective flow due to a porous rotating disk with viscous dissipation, Chapter- 10, 267-292, 2012, Heat Transfer Phenomena and Applications, InTech Publisher.