Fatin Hamimi Hamat@Mustafa

New infografik template 2022DrFATINHAMIMI

FatinHamimiHamat Mustafa

Name

Fatin Hamimi Hamat@Mustafa

Current Position

Lecturer

Email

fatinmustafa@usm.my

Office Telephone

+609-7672432

Qualifications

University of Sydney, PhD in Electrical Engineering, 2017.

Universiti Teknologi Malaysia, MSc in Electrical and Electronics Engineering, 2009.

Universiti Teknologi Malaysia, BSc (Hons.) in Electrical Engineering (Electronics and Telecommunications), 2006.

Research Interests

Optical biosensor, biomedical engineering

Research Overview 1

Optical biosensor

My research interest includes detection of bacteria, virus, protein, DNA and RNA as well as using optical biosensor technologies. The technologies include spectroscopy, tapered fiber sensor and surface plasmon resonance. The future direction is to develop an optical biosensor that can be embedded to computing devices including mobile phones.

Scientific Research Overview

Current projects in the lab include:

1. Detection of Bancroftian Lymphatic Filariasis using Surface Plasmon Resonance

2. Detection of Enterovirus 71 HFMD using Optical Spectroscopy

3. Monte Carlo Simulation of Tapered Optical Fiber for Biosensing Applications

Selected Publications

  1. Fatin Hamimi Mustafa, Emily J. Bek, Jacqueline Huvanandana, Peter W. Jones, Angela E. Carberry, Heather E. Jeffery, Craig T. Jin and Alistair L. McEwan. “Length- free near infrared measurement of newborn malnutrition”, Scientific Reports, Nature Publishing Group, (6), 2016. Doi: 10.1038/srep36052.
  2. Fatin Hamimi Mustafa, Peter Jones, and Alistair McEwan. “Near infrared spectroscopy for body fat sensing in neonates: quantitative analysis by GAMOS simulations”, BioMedical Engineering Online Journal, 16:14, 2017. DOI 10.1186/s12938-016-0310-y.
  3. McEwan, A. L., S. Bian, G. Gargiulo, R. Morhard, P. Jones, F. H. Mustafa, B. Emily Bek, and H. E. Jeffery. "Low-cost near-infrared measurement of subcutaneous fat for newborn malnutrition." SPIE Smart Structures and Materials+ Nondestructive Evaluation and Health Monitoring, pp. 90600A-90600A. International Society for Optics and Photonics, 2014.
  4. F. H. Mustafa, X. Yi, A. L. McEwan, “Comparison of Geant4/Gamos with Monte Carlo Multilayer: Photon Transport in Tissue Simulating Phantom for Glucose Sensing”, The 6th European Conference of the International Federation for Medical and Biological Engineering (MBEC 2014), Dubrovnik, Croatia, 2014
  5. Fatin Hamimi Mustafa, Peter Jones, and Alistair Lee McEwan. "Improvement of Near Infrared Body Fat Sensing at 45-Degree Source-Detector Position Angle." BME- HUST 2016 International Conference on Biomedical Engineering, 2016.

Author Links

Google Scholar ID