Microfluidics and BioInstrumentation Lab @ Wayne State University
Wayne State University Microfluidics and Bioinstrumentation Lab
Principle Investigator:
Amar S. Basu
Associate Professor, Electrical and Biomedical Engineering
Email: [email protected]
6D - MOSFET scaling and non-ideal behavior
6C - MOSFET threshold voltage
6B - MOSFET energy band diagrams and electrostatics
6A - MOSFET key concepts
5F - Metal Semiconductor Junctions
5E - Diode transients, photodiodes, and LEDs
5D - Diode in forward and reverse bias
5C - Diode in forward bias
5B - Electrostatics of the diode depletion region
4C - Carrier diffusion, continuity equation
4B - Excess carrier generation from optical stimulus
4A - Optical carrier generation
5A - PN Junction at Equilibrium
3D - Drift current, resistance, and mobility
3C - Carrier statistics, electron and hole concentrations
3B - electrons and holes, intrinsic and doped semiconductors, carrier statistics
3A - Silicon bonding and band structure
2C - Quantum mechanical model of atom and electronic configuration
2B - Debroglie equation
2A - Bohr model of the atom and wave-particle duality
1B - Semiconductor crystal structures and manufacturing
1A - Crystal structures in semiconductors
0B - Applications of semiconductor devices in modern electronics
0A - Introduction and Emerging Trends in Semiconductors
Course Syllabus and Introductions
4C - Electromagnets and Magnetic Materials
4B - Electric motors, Torque, Biot Savart Law, Ampere's Law
4A - Lorentz Force, Hall Effect Sensors
3G - Electrostatic Sensing, Energy, and Forces
3F - Dielectric Materials, Electrostatics at Interfaces, Capacitors