Contact Noor Mohammadd
Background
Noor Mohammadd is currently pursuing a Ph.D. in Defence and Security at Cranfield University, where his research primarily focuses on the development of compound semiconductor-based solid-state sensors for biodetection applications. The project is funded by Research England (UKRI) through the Biodetection Technologies Hub and involves collaboration with academics and researchers from the University of Manchester, University of Hertfordshire and University of Leeds.
Additionally, he holds an M.Sc. in Optical Communications and Signal Processing from the University of Bristol, where his research focused on magnetic-plasmonic nanoparticles for metal-enhanced fluorescence (MEF) biosensing. Using Lumerical FDTD, he optimised iron oxide-silver core-shell nanoparticles for fluorescence enhancement, analysing the Purcell factor, electric field distribution, and spectral shifts in multi-particle systems, demonstrating their potential for biomedical sensing applications.
Previously, Noor earned a Bachelor’s degree in Electrical and Electronic Engineering from Ahsanullah University of Science and Technology (AUST), Dhaka, Bangladesh. His undergraduate thesis explored the absorption tunability of graphene-based one-dimensional photonic crystal structures, as well as the fundamental expression of graphene conductivity from the Kubo formula, along with some approximated expressions incorporating the Drude model. After completing his undergrad studies, he worked on several research projects related to Surface Plasmon Resonance (SPR) based PCF sensors and consequently, published multiple research articles in IEEE, Elsevier, IOP Publishing, Springer, etc.
Research opportunities
III-V Compound Semiconductors; Nanophotonics; Fluorescence; Biosensors.
Publications
Articles In Journals
- Ahmed K, Amin R, Bui FM, Chen L, Mohammadd N, .... (2024). Design and Analysis of Multi-Analyte Detection Based Biosensor in the Visible to Near-Infrared (VNIR) Region. IEEE Transactions on NanoBioscience, 23(1)
- Amin R, Taha RM, Riyadh Altahan B, Mohammadd N, Ahmed K, .... (2022). FEA_LiNbO3: Finite element analysis of novel LiNbO3 material based fiber for optical communication properties of nonlinear applications. Alexandria Engineering Journal, 61(12)
- Srinivasan K, Radhakrishnan G, Mohammadd N, Amin R, Ahmed K, .... (2022). Ultra-high negative dispersion compensating circular–shaped PCF with highly birefringent and nonlinear characteristics for optical applications. Optical and Quantum Electronics, 54(12)
- Amin R, Abdulrazak LF, Tahhan SR, Mohammadd N, Ahmed K, .... (2022). Tellurite glass based optical fiber for the investigation of supercontinuum generation and nonlinear properties. Physica Scripta, 97(3)
- Amin R, Abdulrazak LF, Mohammadd N, Ahmed K, Bui FM, .... (2022). GaAs-filled elliptical core-based hexagonal PCF with excellent optical properties for nonlinear optical applications. Ceramics International, 48(4)
- Mohammadd N, Abdulrazak LF, Tahhan SR, Amin R, Ibrahim SM, .... (2022). GaP-filled PCF with ultra-high birefringence and nonlinearity for distinctive optical applications. Journal of Ovonic Research, 18(2)
