The program information below was valid for the fall 2016 term (September 1, 2016 - December 31, 2016). This is the archived version; the most up-to-date program information is available through the current Graduate Studies Academic Calendar.
The Graduate Studies Academic Calendar is updated 3 times per year, at the start of each academic term (January 1, May 1, September 1). Graduate Studies Academic Calendars from previous terms can be found in the archives.
Students are responsible for reviewing the general information and regulations section of the Graduate Studies Academic Calendar.
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Admit term(s)
- Fall
- Winter
- Spring
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Delivery mode
- On-campus
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Program type
- Collaborative
- Doctoral
- Research
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Registration option(s)
- Full-time
- Study option(s)
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Minimum requirements
- A thesis-based Master's degree from a university of recognized standing with a minimum 80% standing with demonstrated research capabilities.
- In order to be admitted to PhD candidacy, applicants must have demonstrated research capabilities. For this reason, should graduates with a Master's degree obtained without producing a research thesis desire to enter the PhD program, they must satisfy the Department that they are able to carry out independent research.
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Application materials
- Résumé
- Supplementary information form
- Transcript(s)
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References
- Number of references: 3
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Type of references:
at least 2 academic.
- English language proficiency (ELP) (if applicable)
- Graduate Academic Integrity Module (Graduate AIM)
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Courses
- Candidates must successfully complete the 2 core courses and at least 1 more graduate course from the list of technical electives (0.50 unit weight) with an overall average of 70% (no more than 1 of the courses used for credit towards the PhD degree may be taught by the candidate's supervisor). The actual program is decided by the student and the supervisor(s), subject to the approval of the Associate Chair for Graduate Studies.
- Candidates admitted to the PhD program who do not possess a recent and relevant Master's degree or have transferred directly to the PhD program without a Master's degree, are required to complete a minimum of 7 courses, at least 5 of which must be from the list of technical elective.
- Core courses:
- NANO 701 Fundamentals of Nanotechnology
- NANO 702 Nanotechnology Tools
- Core courses are designed to provide the base knowledge and skill set required to prepare students for more specialized courses and to conduct interdisciplinary nanoscale research.
- Students who have completed their Bachelor of Applied Science (BASc) or MASc degree in Nanotechnology Engineering at the University of Waterloo will not be required to take the 2 core courses. Instead, they can choose all graduate courses from the list of technical electives.
- Technical elective courses:
- (a) Micro/nano Instruments and Devices
- BIOL 642 Current topics in Biotechnology
- CHEM 724 Chemical Instrumentation
- CHEM 750 Topic 17 Selected Topics in Physical Chemistry: Surface Science and Nanotechnology
- CHEM 750TXX Nanostructured Materials and Analysis
- ME 738 Special Topics in Materials: Materials for NEMS and MEMS
- ME 770 Topics in Heat and Fluid Flow: Micro- and Nano- fluidics
- ME 780 Special Topics in Mechatronics: MEMS Design and Analysis
- SYDE 682 Advanced MicroElectroMechanical Systems: Principles, Design & Fabrication
- SYDE 750 Topic 24 Topics in Systems Modelling: Modelling, Simulation and Design of MEMS
- (b) Nanoelectronics Design and Fabrication
- CHEM 750 Topic 11 Selected Topics in Physical Chemistry: Bioelectronics
- CHEM 750 Topic 19 Selected Topics in Physical Chemistry: Carbon Nanotube Electronics
- ECE 631 Microelectronic Processing Technology
- ECE 632 Photovoltaic Energy Conversion
- ECE 633 Nanoelectronics
- ECE 634 Organic Electronics
- ECE 635 Fabrication in the Nanoscale: Principles, Technology, & Applications
- ECE 636 Advanced Analog Integrated Circuits
- ECE 637 Digital Integrated Circuits
- ECE 639 Characteristics & Applications of Amorphous Silicon
- ECE 672 Optoelectronic Devices
- ECE 676 Quantum Info Processing Devices
- ECE 677 Quantum Electronics & Photonics
- ECE 730 Topic 10 Special Topics in Solid State Devices: Advanced Technology for Semiconductor Processing
- ECE 730 Topic 11 Special Topics in Solid State Devices: Physics and Modeling of Semiconductor Devices
- ECE 730 Topic 19 Special Topics in Solid State Devices: Magnetism and Spintronics
- ECE 730T20 Topics in Solid State Devices: Physics of Nanodevices
- ECE 770T13 Topics in Antenna and Microwave Theory: Quantum Information Devices
- ME 595 Introduction to MEMS Fabrication
- ME 596 Topics in Nanotechnology: Introduction to Fabrication & Characterization of Nano-structures
- PHYS 713 Molecular Physics
- PHYS 731 Solid State Physics 1
- PHYS 747 Optical Electronics
- (c) Nano-biosystems
- BIOL 608 Advanced Molecular Genetics
- BIOL 614 Bioinformatics Tools and Techniques
- BIOL 629 Cell Growth and Differentiation
- BIOL 642 Current Topics in Biotechnology
- BIOL 670 Photobiology
- BIOL 678 Current topics in Neurophysiology
- CHE 562 Advanced Bioprocess Engineering
- CHE 660 Principles of Biochemical Engineering
- CHE 661 Advances in Biochemical Engineering
- CHE 760 Special Topics in Biochemical Engineering
- CHE 765 Research Topics in Biochemical Engineering
- CHEM 730 Proteins and Nucleic Acids
- CHEM 731T02 Physical Biochemistry
- CHEM 737 Enzymes
- PHYS 751 Clinical Applications of Physics in Medicine
- PHYS 752 Molecular Biophysics
- (d) Nanomaterials
- CHE 541 Introduction to Polymer Science and Properties
- CHE 542 Polymerization and Polymer Properties
- CHE 612 Interfacial Phenomena
- CHE 622 Statistics in Engineering
- CHE 640 Principles of Polymer Science (cross-listed with CHEM 770)
- CHE 641 Physical Properties of Polymers (cross-listed with CHEM 771)
- CHE 740 Special Topics in Polymer Science and Engineering
- CHE 745 Research Topics in Polymer Science and Engineering
- CHE 750 Special Topics in Materials Science: Thin Film Fabrications & Mechanical Properties
- CHE 755 Research Topics in Electrochemical Engineering, Interfacial Engineering & Material Science
- CHEM 710T12 Structure and Function of Supramolecular Materials
- CHEM 710T15 Advanced Solid State Chemistry: Ion, Electron and Molecular Transport
- CHEM 710 Topic 17 Selected Topics in Inorganic Chemistry: Nanostructured Materials and Integrative Chemistry
- CHEM 713 Chemistry of Inorganic Solid State Materials
- CHEM 750 Topic 17 Selected Topics in Physical Chemistry: Surface Science and Nanotechnology
- ME 632 Experimental Methods in Materials Engineering
- ME 738 Special Topics in Materials: Materials for NEMS and MEMS
- ME 738 Topics in Materials Science: Nanostructured and Amorphous Materials
- ME 738 Topic 8 Special Topics in Materials: Introductory and Advanced Nanomechanics
- PHYS 701 Quantum Mechanics 1
- PHYS 704 Statistical Physics 1
- PHYS 706 Electromagnetic Theory
- PHYS 773 Special Topics
- (a) Micro/nano Instruments and Devices
- Link(s) to courses: for information about these courses, please contact Graduate Studies and Postdoctoral Affairs
- Mechanical and Mechatronics Engineering (ME) courses
- Nanotechnology (NANO) courses
- Biology (BIOL) courses
- Chemical Engineering (CHE) courses
- Chemistry (CHEM) courses
- Electrical and Computer Engineering (ECE) courses
- Physics and Astronomy (PHYS) courses
- Systems Design Engineering (SYDE) courses
- Graduate Safety Milestone
- The Graduate Safety Milestone must be completed by the end of the student's second registered term.
- PhD Research Seminar
- This seminar is a forum for student presentation of research results or proposals. Invited speakers from academia and industry will also present results of research from time to time. The range of topics that will be addressed in the seminar crosses all areas of research in the collaborative program. Each student is required to present at least 1 research seminar. To receive credit, students are expected to attend at least 8 seminars other than their own before completing their program.
- PhD Comprehensive Examination
- The thesis topic is decided by the student and supervisor(s), in consultation with an Advisory Committee. The proposed research program is also examined during the Comprehensive Examination.
- The Comprehensive Examination should be conducted within about one year, but in any case not later than sixteen months, after the student has been admitted to the PhD program. In preparation for this examination candidates will submit a written research proposal of between 2,000 and 4,000 words describing their thesis problem and outlining the proposed method of attack. This proposal must be circulated to the members of the Comprehensive Examination Committee not less than two weeks before the examination. The Comprehensive Examination Committee, on the advice of the candidate's supervisor(s), should examine:
- The adequacy of the course of study being undertaken.
- The student's performance during the first year both in the coursework and in the research studies.
- The proposal for research program as presented by the student.
- The adequacy of the student's technical background in related areas of knowledge.
- The main decision to be reached is whether the candidate should proceed with the proposed study or change the emphasis in the research work. Advice about taking additional graduate courses may also be given.
- PhD Thesis
- This degree is awarded after candidates have satisfied the Examining Committee that their thesis is a substantial original contribution to knowledge and have also demonstrated a high degree of competence in areas of knowledge related to their specialization.
- Regulations governing the submission and examination of the PhD thesis are found in the Minimum Requirements for the PhD Degree section of the Graduate Studies Academic Calendar.
- The Examining Committee consists of the supervisor(s) and four other members nominated by the supervisor(s) and is approved by the Faculty Graduate Studies Committee. One of the committee members is appointed from outside the University, another from outside the Department (often from Mathematics or Physics).