Teaching
CHE 354-002: Chemical Reactor Design.
Spring & Fall 2016, Spring & Fall 2017, Spring & Fall 2019.
Spring & Fall 2016, Spring & Fall 2017, Spring & Fall 2019.
1. Polymath instruction #1 (basics) : Mac QuickTime Windows WMV
Matlab files for the two example problems in the polymath video. You need to download and open in Matlab. #1 #2
2. Polymath instruction #2 (reactors) : Mac QuickTime Windows WMV
3. Polymath instruction #3 (pressure drop) : Mac QuickTime Windows WMV
4. Polymath instruction #4 (mole balance based on mole flow rate) : Mac QuickTime Windows WMV
5. Polymath instruction #5 (membrane reactor) : Mac QuickTime Windows WMV
6. Polymath instruction #6 (semibatch reactor) : Mac QuickTime Windows WMV
7. Polymath instruction #7 (non-linear regression) : Mac QuickTime Windows WMV
Matlab files for the two example problems in the polymath video. You need to download and open in Matlab. #1 #2
2. Polymath instruction #2 (reactors) : Mac QuickTime Windows WMV
3. Polymath instruction #3 (pressure drop) : Mac QuickTime Windows WMV
4. Polymath instruction #4 (mole balance based on mole flow rate) : Mac QuickTime Windows WMV
5. Polymath instruction #5 (membrane reactor) : Mac QuickTime Windows WMV
6. Polymath instruction #6 (semibatch reactor) : Mac QuickTime Windows WMV
7. Polymath instruction #7 (non-linear regression) : Mac QuickTime Windows WMV
CHE 492: Electrochemical Engineering
Fall 2016
Fall 2016
CHE 492 / ECE 438: Microfabrication
Fall 2018
Resources used in the classes:
1. Semiconductor manufacturing facility - YouTube 1, YouTube2
2. Overall microprocessor fabrication processes - YouTube1, YouTube2
3. Electron microscope (YouTube) and Wavelength calculation (link)
4. X-ray diffraction analysis software - PowderCell
5. Silicon production - Czochralski process (YouTube1) and Zone refining process (YouTube2)
6. Ion-implantation distribution calculation software - SRIM (Stopping and Range of Ions in Matter)
7. Excel working sheet for diffusion
8. Photolithography (wiki) and etching (YouTube)
9. Interference and Diffraction, and full readings (1, 2)
10. Wave-particle duality and matter wave
11. Atomic Layer deposition and Atomic Layer processing
12. Physical Vapor Deposition (PVD) :
sputtering (first 6 short paragraphs of link)
evaporation (first 4 short paragraphs of link)
13. Chemical Vapor Deposition (CVD) of
i) Silicon thin film from Silane, ii) Silicon nanowires, iii) carbon nanotubes, and iv) graphene
14. Electrochemical 3D deposition (gif1, gif2)
15. 3D printing (Additive manufacturing) and Selective Laser Melting
Fall 2018
Resources used in the classes:
1. Semiconductor manufacturing facility - YouTube 1, YouTube2
2. Overall microprocessor fabrication processes - YouTube1, YouTube2
3. Electron microscope (YouTube) and Wavelength calculation (link)
4. X-ray diffraction analysis software - PowderCell
5. Silicon production - Czochralski process (YouTube1) and Zone refining process (YouTube2)
6. Ion-implantation distribution calculation software - SRIM (Stopping and Range of Ions in Matter)
7. Excel working sheet for diffusion
8. Photolithography (wiki) and etching (YouTube)
9. Interference and Diffraction, and full readings (1, 2)
10. Wave-particle duality and matter wave
11. Atomic Layer deposition and Atomic Layer processing
12. Physical Vapor Deposition (PVD) :
sputtering (first 6 short paragraphs of link)
evaporation (first 4 short paragraphs of link)
13. Chemical Vapor Deposition (CVD) of
i) Silicon thin film from Silane, ii) Silicon nanowires, iii) carbon nanotubes, and iv) graphene
14. Electrochemical 3D deposition (gif1, gif2)
15. 3D printing (Additive manufacturing) and Selective Laser Melting
