1. Hakeem, A.A.; Govindaraju, M.; Ganga, B.; Jayaprakash, R.: Effect of entropy generation in viscoelastic fluid over a stretching surface with non-uniform heat source/sink and thermal radiation. Int. J. Appl. Eng. Res. 13(23), 16485–16493 (2018)

2. Guedri, K.; Khan, A.; Gul, T.; Mukhtar, S.; Alghamdi, W.; Yassen, M.F.; Tag Eldin, E.: Thermally dissipative flow and entropy analysis for electromagnetic trihybrid nanofluid flow past a stretching surface. ACS Omega 7(37), 33432–33442 (2022)

3. Butt, A.S.; Maqbool, K.; Imran, S.M.; Ahmad, B.: Entropy generation effects in MHD Casson nanofluid past a permeable stretching surface. Int. J. Exergy 31(2), 150–171 (2020)

4. Seth, G.S.; Bhattacharyya, A.; Kumar, R.; Chamkha, A.J.: Entropy generation in hydromagnetic nanofluid flow over a non-linear stretching sheet with Navier’s velocity slip and convective heat transfer. Phys. Fluids 30(12), 122003 (2018)

5. Abelman, S.; Zaib, A.: Entropy generation of nanofluid flow over a convectively heated stretching sheet with stagnation point flow having nimonic 80a nanoparticles: Buongiorno model (2017)