- Wireless Power Transfer and Remote Steering
of Microrobots
Visiting Research Project, KAIST, 2018.
This research builds on my
MS thesis on patterning of low frequency magnetic fields
and aims to power and steer microrobots floating on a
fluid and followed by
in vitro
experimental validation.
- Patterning of electric fields by means
of special spectrum for highly focused brain stimulation
MSc Course
project, IUST, 2017.
This project is to enhance
the focused brain stimulation and simplify the
facilities by lowering the number of current sources.
Here, the concept of spatial spectra of the desired
pattern is used. Results are based on simulation
verification.
- Reconfigurable magnetic field pattern
synthesis by means of the spatial spectrum
MSc
Thesis, IUST, 2016-17.
We aimed to spatially shape the
perpendicular magnetic fields over a 2D plane as well a 1D
line with a novel analytical design method. The structure
was implemented to be used for magnetic drug targeting,
hyperthermia and neuron stimulation. Results were validated
in practice.
- Action potential blockade by patterned
subwavelength electric fields
MSc Course
project, IUST, 2016-17.
A setup of coils placed above
planar nonlinear anisotropic media were designed to
manipulate and spatially pattern the electric field incident
on motor neurons to create a controlled blockage point in
the spinal cord. Results were verified by full wave
simulations and nerve modelling.
- A graphical user interface for an
optimal coil-based magnetic separator
MSc Course
project, IUST, 2016.
A MATLAB graphical user interface was
developed to realize an efficient, easy to install magnetic
separator compared to traditional devices.
- Design of a personalized magnetic drug
targeting scenario and implementation of an adaptable
coil setup
BSc
Thesis, IUST, 2014-2015.
Developing
and algorithm to design core-loaded coils for magnetic drug
targeting in high blood flow human vessels, followed by
in vitro
experimental validation.
