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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

‘Be anything but predictable.’

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 :

dzulianafatin@utm.my

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.
Blood Flow
Stenosed artery
Fractional Derivatives

Supervision

StudentLevel of EducationProject TitleStatus of Completion
Sharvin A/L SundranBachelorMagnetic drug targeting during Caputo-Fabrizio fractionalized blood flow through a
permeable vessel.
Ongoing