## About

**DR. DZULIANA FATIN BINTI JAMIL** is mainly from Johor. She graduated with a Bachelor of Mathematics (2016) from UiTM and went on to earn both her MSc (2018) and Ph.D. (2023) in Applied Mathematics from UTHM, Malaysia. Previously she worked as a part time lecturer in UiTM Johor before being appointed as a Lecturer at Unitar International University. Her research interests encompass mathematical modeling, fractional derivatives, and applied mathematics focusing on blood flow.

## Biography

**Senior Lecturer in Applied Mathematics**

Department of Mathematical Sciences, Faculty of Science

**Qualifications:**

Ph.D. in Mathematics (Universiti Tun Hussein Onn Malaysia)

M.Sc. in Mathematics (Universiti Tun Hussein Malaysia)

B.Sc. in Mathematics (Universiti Teknologi Mara)

**Research Interests:**

Blood Flow; Mathematical Modeling; Analytical Methods; Fractional Derivatives.

**Email :**

## Research

**PUBLICATIONS**

**RESEARCH NICHE**

**Jamil, D.F**., Abdulhameed, M., Che-Him, N., Sufahani, S., Mohamad,M., Kamardan, M.G. & Roslan, R. 2018. Unsteady Blood Flow with Nanoparticles Through Stenosed Arteries in The Presence of Periodic Body Acceleration. Journal of Physics: Conference Series. Scopus.**Jamil, D.F.**, Sufahani,S., Abdulhameed,M., Hashim, I., & Roslan, R. 2018. A Study of

Nanoparticles as a Drug Carrier on the Wall of Stenosed Arteries. GP Journal of Heat and Mass Transfer. 15(3):497-514. Scopus.**Jamil, D.F**., Abdulhameed,M., Kamardan, M.G. & Roslan, R. 2018. Controlling the Blood Flow in the Stenosed Porous Artery with Magnetic Field. Sains Malaysiana. 47(10) (2018): 2581-WoS.**D.F.Jamil,**S.Uddin, M.G.Kamardan, R.Roslan. 2020. The Effects of Magnetic Blood Flow in an Inclined Cylindrical Tube Using Caputo-Fabrizio Fractional Derivatives. CFD Letters. 12(1). 111-122. Scopus. ISSN: 2180-1363.**D.F. Jamil**, S.Uddin, M.G.Kamardan, R.Roslan, Mohd Kamalrulzaman Md Akhir. 2020.Modeling electro-magneto hydrodynamic of blood flow in multi-stenosed artery using fractional derivatives without singular kernel. FIT-M 2020. 309-318. Scopus.**D.F.Jamil,**S.Uddin, M.G.Kamardan, R.Roslan. 2021. The effects of magnetic Casson blood flow in an inclined multi-stenosed artery by using Caputo-Fabrizio fractional derivatives. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences.

Akademia Baru. 82(2) 28-38. Scopus. ISSN: 2289-7879.**D.F.Jamil**, S.Saleem, R.Roslan, F.S.Al-Mubaddel, M.R.Gorji, A.Issakhoc, S.U.Din. 2021. Analysis of non-Newtonian magnetic Casson blood flow in an inclined stenosed artery by using Caputo-Fabrizio fractional derivatives. Computer Methods and Programs in Biomedicine. 203. 106044. 1-11 WoS. IF: 3.632. Q1. ISSN: 0169-2607. Elsevier.**D.F.Jamil**, S.Uddin, M.G.Kamardan, R.Roslan. 2022. Electromagnetic Casson bloodflow in multistenosed porous artery using Caputo−Fabrizio fractional derivatives. In: Ryan John Magno, Tuan Anh Nguyen. Nanotechnology for Hematology, Blood Transfusion, and Artificial Blood, Transport of nanoparticles in blood flow. Scopus. Elsevier. ISBN:9780128239711.

**ResearchGate link:**

## Supervision

Student | Level of Education | Project Title | Status of Completion |

Sharvin A/L Sundran | Bachelor | Magnetic drug targeting during Caputo-Fabrizio fractionalized blood flow through a permeable vessel. | Ongoing |