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Micro Shape Memory Alloys for a Drug Delivery Platform
In this project, the student will be working on fabricating micro-pillars of ferromagnetic shape memory alloys (FSMA). Fabrication will be followed by using these micro-pillars for in-situ nano-indentation to test their FSMA property. This will be followed by using these micro pillars as an on-deman
Keywords: Micro-fabrication, on-demand drug delivery, Micro- nano pillars, cancer therapy
In this project, the student will be working on fabricating micro-pillars of ferromagnetic shape memory alloys (FSMA). Fabrication will be followed by using these micro-pillars for in-situ nano-indentation to test their FSMA property. This will be followed by using these micro pillars as an on-demand drug delivery platform for cancerous cells.
Students will learn how to fabricate smart, multi-functional microstructures in a clean-room and use them to study a steady drug release towards targeted cells using external stimuli such as wireless magnetic fields.
In this project, the student will be working on fabricating micro-pillars of ferromagnetic shape memory alloys (FSMA). Fabrication will be followed by using these micro-pillars for in-situ nano-indentation to test their FSMA property. This will be followed by using these micro pillars as an on-demand drug delivery platform for cancerous cells. Students will learn how to fabricate smart, multi-functional microstructures in a clean-room and use them to study a steady drug release towards targeted cells using external stimuli such as wireless magnetic fields.
Fabrication of magnetic shape memory alloys microstructures.
Characterization and study of shape memory properties.
Cancer cell drug delivery efficiency
Fabrication of magnetic shape memory alloys microstructures. Characterization and study of shape memory properties. Cancer cell drug delivery efficiency