Nanoscience Co-op (NANO:C)
Administered jointly by the Department of Chemistry and the Department of Physics, College of Engineering and Physical Sciences
Program Requirements
The Co-op program in Nanoscience is a five year program, including five work terms. Students must follow the academic work schedule as outlined below (also found on the Co-operative Education website: https://www.recruitguelph.ca/cecs/).
Nanoscience Academic and Co-op Work Term Schedule
| Year | Fall | Winter | Summer |
|---|---|---|---|
| 1 | Academic Semester 1 | Academic Semester 2 | Off |
| 2 | Academic Semester 3 COOP*1100 | Academic Semester 4 | COOP*1000 Work Term I |
| 3 | Academic Semester 5 | COOP*2000 Work Term II | COOP*3000 Work Term III |
| 4 | Academic Semester 6 | Academic Semester 7 | COOP*4000 Work Term IV |
| 5 | COOP*5000 Work Term V | Academic Semester 8 | N/A |
Please refer to the Co-operative Education program policy with respect to work term performance grading, work term report grading and program completion requirements.
For additional program information students should consult with their Co-op Co-ordinator and Co-op Faculty Advisor, listed on the Co-operative Education web site.
Credit Summary
(22.50 Total Credits)
| Code | Title | Credits |
|---|---|---|
| First year science core | 4.50 | |
| Required science courses semesters 3 - 8 | 8.00 | |
| Approved Science Electives | 3.50 | |
| Liberal Education Electives | 1.00 | |
| Free electives - any approved elective for B.Sc. students | 3.00 | |
| Co-op Work Terms | 2.50 | |
| Total Credits | 22.5 | |
Of the total credits required, students are required to complete 16.00 credits in science of which a minimum of 2.00 credits must be at the 4000 level and an additional 4.00 credits must be at the 3000 or 4000 level.
The recommended program sequence is outlined below.
Major (Honours Program)
Students lacking Grade 12 or 4U Biology, Chemistry or Physics should follow the revised schedule of study for this major found at https://www.uoguelph.ca/bsc/revised_SS/.
| Code | Title | Credits |
|---|---|---|
| Semester 1 - Fall | ||
| BIOL*1090 | Introduction to Molecular and Cellular Biology | 0.50 |
| CHEM*1040 | General Chemistry I | 0.50 |
| IPS*1500 | Integrated Mathematics and Physics I | 1.00 |
| NANO*1000 | Introduction to Nanoscience | 0.50 |
| Semester 2 - Winter | ||
| CHEM*1050 | General Chemistry II | 0.50 |
| IPS*1510 | Integrated Mathematics and Physics II | 1.00 |
| MATH*1160 | Linear Algebra I | 0.50 |
| BIOL*1070 | Discovering Biodiversity | 0.50 |
| or BIOL*1080 | Biological Concepts of Health | |
| Semester 3 - Fall | ||
| CHEM*2060 | Structure and Bonding | 0.50 |
| COOP*1100 | Introduction to Co-operative Education | 0.00 |
| MATH*2270 | Applied Differential Equations | 0.50 |
| NANO*2000 | Synthesis and Characterization of Nanomaterials I | 0.50 |
| PHYS*2330 | Electricity and Magnetism I | 0.50 |
| CHEM*2820 | Thermodynamics and Kinetics | 0.50 |
| or PHYS*2240 | Thermal Physics | |
| Semester 4 - Winter | ||
| CHEM*2070 | Structure and Spectroscopy | 0.50 |
| NANO*2100 | Synthesis and Characterization of Nanomaterials II | 0.50 |
| PHYS*2310 | Mechanics | 0.50 |
| 1.00 electives 1 | 1.00 | |
| Summer Semester | ||
| COOP*1000 | Co-op Work Term I | 0.50 |
| Semester 5 - Fall | ||
| NANO*3200 | Nanolithographic Techniques | 0.50 |
| NANO*3500 | Thin Film Science | 0.50 |
| CHEM*3860 | Quantum Chemistry | 0.50 |
| or PHYS*3230 | Quantum Mechanics I | |
| 1.00 electives | 1.00 | |
| Winter Semester | ||
| COOP*2000 | Co-op Work Term II | 0.50 |
| Summer Semester | ||
| COOP*3000 | Co-op Work Term III | 0.50 |
| Semester 6 - Fall | ||
| NANO*4100 | Biological Nanomaterials | 0.50 |
| NANO*4700 | Concepts in Quantum Computing | 0.50 |
| 1.50 electives | 1.50 | |
| Semester 7 - Winter | ||
| NANO*3300 | Spectroscopy of Nanomaterials | 0.50 |
| NANO*3600 | Computational Methods in Materials Science | 0.50 |
| 1.50 electives | 1.50 | |
| Summer Semester | ||
| COOP*4000 | Co-op Work Term IV | 0.50 |
| Fall Semester | ||
| COOP*5000 | Co-op Work Term V | 0.50 |
| 1.50 electives | 1.50 | |
| Semester 8 - Winter | ||
| NANO*4200 | Topics in Nanomaterials | 0.50 |
| 2.00 electives | 2.00 | |
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To take PHYS*3230 Quantum Mechanics I in semester 5, then PHYS*2340 Electricity and Magnetism II must be selected as an elective in semester 4.
Areas of Focus
In completing the science requirements for the degree, some suggested complementary areas of focus are listed below. Students should consult a faculty advisor or program counsellor to discuss scheduling of the complementary area of focus courses.
| Code | Title | Credits |
|---|---|---|
| Chemistry | ||
| CHEM*2480 | Analytical Chemistry I | 0.50 |
| CHEM*2700 | Organic Chemistry I | 0.50 |
| CHEM*3430 | Analytical Chemistry II: Instrumental Analysis | 0.50 |
| CHEM*3440 | Analytical Chemistry III: Analytical Instrumentation | 0.50 |
| CHEM*3640 | Chemistry of the Elements I | 0.50 |
| CHEM*3650 | Chemistry of the Elements II | 0.50 |
| CHEM*3750 | Organic Chemistry II | 0.50 |
| CHEM*3760 | Organic Chemistry III | 0.50 |
| CHEM*3870 | Molecular Spectroscopy | 0.50 |
| CHEM*4400 | Advanced Topics in Analytical Chemistry | 0.50 |
| CHEM*4620 | Advanced Topics in Inorganic Chemistry | 0.50 |
| CHEM*4720 | Organic Reactivity | 0.50 |
| CHEM*4730 | Synthetic Organic Chemistry | 0.50 |
| Mathematics and Statistics | ||
| MATH*2130 | Numerical Methods | 0.50 |
| MATH*3160 | Linear Algebra II | 0.50 |
| MATH*4240 | Advanced Topics in Modeling and Optimization | 0.50 |
| STAT*2040 | Statistics I | 0.50 |
| STAT*3100 | Introductory Mathematical Statistics I | 0.50 |
| Physics | ||
| MATH*2200 | Advanced Calculus I | 0.50 |
| PHYS*2340 | Electricity and Magnetism II | 0.50 |
| PHYS*3000 | Optics: Fundamentals and Applications | 0.50 |
| PHYS*3130 | Mathematical Physics | 0.50 |
| PHYS*4040 | Quantum Mechanics II | 0.50 |
| PHYS*4150 | Solid State Physics | 0.50 |
| PHYS*4180 | Advanced Electromagnetic Theory | 0.50 |
| PHYS*4240 | Statistical Physics II | 0.50 |