**6. Concluding Remarks**

In this paper, the flow of nanoliquid comprising nickel–zinc ferrite–ethylene glycol (NiZnFe2O4–C2H6O2) accompanied by entropy optimization coating past a curved stretching surface with convective heat and mass flux boundary was examined. The solution of the envisioned system of equations was found numerically by applying MATLAB built-in function bvp4c. The impact of numerous arising parameters on involved profiles was depicted via graphical illustrations with requisite discussions.

The conclusions of the current study are as follows:


**Author Contributions:** Formal Analysis, M.R.; Funding Acquisition, D.L.; Investigation, M.R.; Methodology, D.L.; Project Administration, M.R.; Software, S.A.; Validation, M.S.; Writing—Original Draft, A.S.; Writing—Review and Editing, M.S.

**Funding:** This research was funded by National Natural Science Foundation China (No. 11571140 and 11671077), Faculty of Science, Jiangsu University, Zhenjiang, China.

**Acknowledgments:** The authors are highly thankful for exceptional support raised by the Jiangsu University, China and Bahria University, Islamabad, Pakistan.

**Conflicts of Interest:** Authors have no conflict of interest regarding this publication.
