Research

Research Interest

Quantum Nanomaterials

Perovskite Based Material

Material Charecterization

Magnetoelectric Multiferroic

Sensors

Computational Material Science

Polymer Composites

Thin Films

Prior Research Projects

Development of an efficient 2,4-dinitrophenol sensor based on Fe3O4/5-Fu/NVCL/mSiO2 nanocomposites

Details: The project aims to synthesize colloidal monodispersed Iron Selenide quantum dots via rapid hot injection method for electrical and biological uses. Their structural and morphological properties will be analyzed using XRD and SEM, while NIR and UV spectroscopy will assess their photoluminescence. Additionally, the potential of FeSe quantum dots as an MRI contrast agent in biological applications will be investigated

Lab : Material Science Laboratory-I, Bangladesh University of Science and Technology ( BUET)

Investigation on physical properties of spray pyrolysis deposited Cd doped Ga2O3 thin films on glass substrate

Details: Well studied Ga2O3 thin films have been doped with Cd to examine impact on physical properties. Spray pyrolysis deposition techniques have been adopted to prepared films of Cd doped Ga2O3 films on glass substrate and characterization will be done via XRD, SEM analysis. Optical properties will also be investigated.

Lab : Solid State Physics Lab, Bangladesh University of Engineering and Technology ( BUET), Dhaka-1100, Bangladesh.

Early done Research Projects

Structural analysis and Investigation on optical properties and magneto-electric coupling effect of Ba0.77Ca0.23-Ni0.6Zn0.25La0.15Fe2O4 multiferroic ceramic composite.
Details: Multiferroic composites with the formula Ba0.77Ca0.23-Ni0.6Zn0.25La0.15Fe2O4 were created using the SSR method, and their structural, magnetic, ferroelectric and optical properties were determined using XRD, UV, FTIR, SEM, VSM, and P-E loop tracer.
Lab : Material Science Lab, Atomic Energy Center, Dhaka-1100, Bangladesh.
Numerical Calculation and Analysis of Stress Driven Physical Properties of Halide Perovskite via Density Functional Theory

Details: Under this research project we investigated the physical properties of various Halide Perovskite materials by applying hydrostatic pressure to them. First principle calculation via Density Functional Theory have been used to simulate this project. We investigated Properties of various material such as RbHgF3, RbGeF3, GeSiO3, CaTiO3, and SnHfO3 .

Contactless Automated Fog Spraying Machine

Details: To prevent rapid spread of Covid-19, an automated hand sanitizer machine without physical touch into machine based on sanitizing fog spray technique were builded and investigated its performance for practical use in market to reduce Covid-19 risk

Energy Storage Properties of Ferroelectric Composite Material

Details: Under this project we have made a ferroelectric composite by adding Ferrite Material and analyzed its energy storage properties.

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