Teaching
Teaching assignments at Michigan Tech
2017 Fall
CH 3510, Physical Chemistry I: Therm, Equil, Kinet, 3 credits, 80 enrolled.
CH 4560, Computational Chemistry (class + lab), 3 credits, 1 enrolled.
CH 5560, Computational Chemistry (class + lab), 3 credits, 3 enrolled.
CH 1130, Professional Development for Chemists, 1 credits, 24 enrolled.
2017 Summer
CH 3510, Physical Chemistry I: Therm, Equil, Kinet (online) 3 credits, 9 enrolled.
2017 Spring
CH 3520, Physical Chemistry II: Molecular Structure, 3 credits, 12 enrolled.
CH 4590, Quantum Chemistry (blended course), 3 credits, 4 enrolled.
2016 Fall
CH 6590, Molecular Driving Forces, 3 credits, 7 enrolled.
CH 3510, Physical Chemistry I: Therm, Equil, Kinet, 3 credits, 91 enrolled.
2016 Summer
CH 3510, Physical Chemistry I: Therm, Equil, Kinet (online), 3 credits, 5 enrolled.
2016 Spring
CH 3520, Physical Chemistry II: Molecular Structure, 3 credits, 17 enrolled.
2015 Fall
CH 3510, Physical Chemistry I: Therm, Equil, Kinet, 3 credits, 87 enrolled.
2015 Summer
CH 3510, Physical Chemistry I: Therm, Equil, Kinet (online), 3 credits, 2 enrolled.
2014 Fall
CH 6590, Introduction to Quantum Chemistry (blended), 3 credits, 2 enrolled.
CH 3510, Physical Chemistry I: Therm, Equil, Kinet, 3 credits, 92 enrolled.
2014 Summer
CH 3510, Physical Chemistry I: Therm, Equil, Kinet (online), 3 credits, 24 enrolled.
2014 Spring
CH 3510, Physical Chemistry I: Therm, Equil, Kinet, 3 credits, 59 enrolled.
2013 Fall
CH 4560, Computational Chemistry (class + lab), 3 credits, 5 enrolled.
CH 5560, Computational Chemistry (class + lab), 3 credits, 4 enrolled.
2013 Spring
CH 3510, Physical Chemistry I: Therm, Equil, Kinet, 3 credits, 40 enrolled.
2012 Fall
CH 3510, Physical Chemistry I: Therm, Equil, Kinet, 3 credits, 89 enrolled.
2012 Summer
CH 3510, Physical Chemistry I: Therm, Equil, Kinet, 3 credits, 9 enrolled.
2012 Spring
CH 3510, Physical Chemistry I: Therm, Equil, Kinet, 3 credits, 35 enrolled.
2011 Fall 2011
CH 3510, Physical Chemistry I: Therm, Equil, Kinet, 3 credits, 76 enrolled.
2011 Spring
PH 4999, Mathematical Methods & Electronic Structure Methods, 8 enrolled.
Fall 2010
PH 4510, Introduction to Solid State Physics, 8 enrolled.
Previous teaching experience (University of Turin, Italy)
2006
Physical Chemistry I, 4 credits – Chemistry, 150-200 students (Instructor)
2007
Physical Chemistry I, 4 credits – Chemistry, 150-200 students (Instructor)
Leader of Basic Tutorials, MSSC2007 – Modeling in Solid State Chemistry, Turin (Italy) (see http://www.crystal.unito.it/mssc2008 cd/tutorials/barebone/basic tutorials.html)
2008
Physical Chemistry I, 4 credits – Chemistry, 150-200 students (Instructor)
Infrared Molecular Spectroscopy, 2 credits – Chemistry, 25 students (Lab Coordinator & Lab Instructor)
Delivered several Teaching Seminars for Master Degree in Materials Science, Turin (Italy)
Leader of Basic Tutorials, MSSC2008 – Modeling in Solid State Chemistry, Turin (Italy) (see link above)
Leader of Basic Tutorials, MSSC2008 – Modeling in Solid State Chemistry, London (UK) (see link above)
2009
Physical Chemistry I, 4 credits – Chemistry, 150-200 students (Instructor)
General Physics, 3 credits – Chemical Engineering, 35 students (Instructor)
Properties of Solids: A Theoretical Approach, 2 credit Special Topic Course – Chemistry and Material Science, 15 students (Instructor)
Infrared Molecular Spectroscopy, 2 credits – Chemistry, 25 students (Lab Coordinator & Lab Instructor)
Delivered several Teaching Seminars for Master Degree in Materials Science, Turin (Italy)
Series of three lectures for the international exchange program MaMaSELF: Master in Material Science exploiting European large scale facilities, Turin (Italy)
Teaching Seminar: Theoretical study of the vibrational spectra of crystalline solids: carbonates and garnets
Invited Lecturer – Delivered 4 lectures at 3rd Summer School in Solid State Chemistry (2009), Barcelona (ES)
Invited Lecturer – Leader of Tutorial Sessions, 3rd Summer School in Solid State Chemistry (2009), Barcelona (ES)
Teaching Seminar: Quantum-mechanical study of the adsorption properties of novel metal-organic frameworks: CO and CO2 in CPO-27-M (M=Mg, Ni, Zn) – Turin (Italy)
2010
Physical Chemistry I, 4 credits – Chemistry, 150-200 students (Instructor)
Properties of Solids: A Theoretical Approach, 2 credit Special Topic Course – Chemistry and Material Science, 15 students (Instructor)
Infrared Molecular Spectroscopy, 2 credits – Chemistry, 25 students (Lab Coordinator & Lab Instructor)
Delivered several Teaching Seminars for Master Degree in Materials Science, Turin (Italy)
Series of three lectures for the international exchange program MaMaSELF: Master in Material Science exploiting European large scale facilities, Turin (Italy)
Teaching Seminar: Theoretical study of the vibrational spectra of crystalline solids: carbonates and garnets