Best Chemistry Programs In Canada

To get your degree in chemistry, you may need to apply to some of the best universities in Canada. There are many wonderful options to choose from, but which schools offer the most competitive programs? It is exciting to find out that there are so many outstanding chemistry programs available for anyone who wishes to go on and obtain their PhD. For those looking into getting into a program at one of the best universities in Canada, this article gives you all that you need to know.

Choosing chemistry programs in Canada is not an easy thing. As a student it is important that you are knowledgeable about the various types of chemistry programs available to you. The following article will save you time and should be your starting point for your research.

Best Chemistry Programs In Canada

Chemistry degrees teach students about the fundamentals of Organic and Inorganic Chemistry, as well as Physical Chemistry. Other Chemistry classes focus on Chemical Biology and Nuclear Chemistry. Students learn through laboratory experiments, where they analyse chemical reactions, explore research methods, and evaluate their findings. Graduates find jobs as analytical chemists, chemical engineers, pharmacologists, and more.

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  • M.Sc. On Campus


Lakehead University

Geology from Lakehead University normally emphasizes the fields of Petrochemistry and Tectonophysics.

  • Master On Campus

Instrumental Chemical Analysis

Trent University

The Instrumental Chemical Analysis programme offered by the Trent University provides the theoretical understanding of how modern instruments work and the skills to operate them in this one-of-a-kind program.

  • M.Sc. On Campus


Lakehead University

Chemistry from Lakehead University provides students with diverse opportunities across the subdisciplines of analytical, biochemical, inorganic, organic, and physical chemistry.  

  • M.Sc. On Campus Online

Regulatory Affairs

Northeastern University

The Master of Science in Regulatory Affairs program from Northeastern University is designed to produce graduates who are highly qualified to manage global regulatory process for companies innovating and developing cutting-edge products in healthcare and food safety.

  • M.Sc. On Campus


McMaster University

A Chemistry program of graduate studies from McMaster University, with the goal of producing world-class research output and high-calibre researchers. 

  • M.Sc. On Campus

Individualized Multidisciplinary

University of Lethbridge

The Master of Science program majoring in Individualized Multidisciplinary offered by University of Lethbridge allows students to do research and works to facilitate critical dialogues across academic disciplinary areas.

  • Master On Campus

Chemical Engineering

Queen’s University

Chemical Engineering from Queen’s University is big enough to ensure breadth of research activities while fostering a cohesive learning environment.

university of toronto chemistry

Chemistry places a strong emphasis on an understanding of the structures and properties of atoms and molecules, and on using this understanding to predict and interpret the behaviour of matter. Many of the concepts of physics and the methods of mathematics are fundamental to chemistry. Chemistry is, in turn, of primary importance to many other subjects including astrophysics, geology, biological sciences, environmental science, materials science, pharmaceutical science and the medical sciences. These and other aspects of the subject are reflected in the courses and programs offered by the department. The different areas of chemistry that students will encounter in the course of their undergraduate studies are:

  • Analytical chemistry, which is concerned with providing qualitative and quantitative information about the chemical and structural composition of matter;
  • Biological chemistry, which focuses on the structure, reactivity and reaction mechanisms of molecules found in biological systems;
  • Environmental chemistry, which includes natural substances and processes, as well as pollution problems that have a chemical basis;
  • Inorganic chemistry, a very broad area examining the structure, reactivity and properties of all the elements;
  • Organic chemistry, the study of organic molecules, including pharmaceuticals, natural products and organometallics, with a focus upon reactivity, synthesis, structure, function, mechanism and catalysis;
  • Physical chemistry, which establishes and develops the principles that are used to explain and interpret the observations made in the other branches of chemistry;
  • Polymer and materials chemistry, which is the study of new polymeric and solid state materials with interesting and potentially useful properties.

In the Faculty of Arts & Science, students do not enrol in a program of study until the end of their first year, or after completion of four full credits. However, it will be of great help to discuss a proposed program with a departmental advisor during the first year of study.

The Department of Chemistry offers a variety of specialist, major and minor undergraduate programs. Some of them are covered in combination with other academic disciplines including biology, biochemistry, physics, environmental studies and materials science. All of the six specialist programs (Biological Chemistry, Chemical Physics, Chemistry, Material Science, Pharmaceutical Chemistry, and Synthetic & Catalytic Chemistry) lead to a Honours BSc degree, and are excellent preparation for further studies in a graduate program.

Students who wish to concentrate on chemistry (either less intensively than in a specialist program, or in conjunction with another field of study) may consider enrolling in the Chemistry major or the Environmental Chemistry major program. Those students who want to study chemistry as part of their general education, or to supplement studies in another discipline, may enroll in one of the two minor programs (Chemistry or Environmental Chemistry).

In keeping with the Department of Chemistry being a signatory to the Green Chemistry Commitment, the practices and principles of green chemistry and sustainability are infused into a number of courses that are required within every chemistry undergraduate program, and students may enrol in a Focus in Green Chemistry as part of any specialist or major. Please click on the programs listed on the right for course requirements and detailed descriptions.

university of toronto phd chemistry

Graduate students may conduct research in modern facilities leading to the Master of Science (MSc) and Doctor of Philosophy (PhD). The areas of interest cover a wide variety of topics in analytical, biological, environmental, inorganic, organic, materials, physical, polymers, and theoretical chemistry and their related interdisciplinary areas.

The Department of Chemistry, established in 1859, is one of the leading and recognized institutions in the world. It takes pride in its teaching excellence, advanced research facilities, and its development of distinguished scientists in the past and for the future. Collaborative specializations include Biomedical Engineering and Environmental Studies. Students are guaranteed full, competitive, graduate student funding through a combination of research assistantships, teaching assistantships, and fellowship support. The department offers substantial top-ups for scholarship holders.

Students benefit from rich collaborations with nearby hospitals, industry, and government laboratories. They use state-of-the-art research labs and equipment and work at the interface of chemistry with biology, medicine, nanotechnology, and the environment.

Quick Facts

Application payment deadlineMSc, PhD:Application fee paid for by the Department
Fall 2022 entry
MSc, PhD:5-Dec-2021
Fall 2022 entry
Supporting documents deadlineMSc, PhD:Early deadline: 1-Feb-2022Final deadline: 30-Apr-2022MSc, PhD:5-Dec-2021
Minimum admission averageMSc:B+ average in final year of bachelor’sPhD:A-minus in Master’s degreePhD:A-minus in Master’s degree
Direct entry option from bachelor’s to PhD?PhD:Yes (minimum A-minus average in bachelor’s degree)PhD:Yes (minimum A-minus average in bachelor’s degree)
Is a supervisor identified before or after admission?MSc:After
If a supervisor is identified after admission (as per question above), is admission conditional upon securing a supervisor?MSc:NoPhD:NoPhD:No
Is a supervisor assigned by the graduate unit or secured by the applicant?MSc:Graduate unitMSc, PhD:Graduate unitMSc, PhD:Graduate unit
Program length (full-time only)MSc:3 sessionsPhD:4 years; 5 years if transferring from Master’s; 5 years direct-entryPhD:4 years; 5 years if transferring from Master’s; 5 years direct-entry

university of waterloo chemistry

Chemistry is a diverse discipline, involving substances in every aspect of life – what we see, eat, smell, touch, and taste every day. With an equal emphasis on theory and practical work, Waterloo’s Chemistry undergraduate and graduate programs prepare you for a growing number of dynamic career options. You could be searching for the roots of crippling diseases, developing cancer-fighting drugs, or assessing environmental damage.

Some of the specialized topics being investigated by UW Chemistry Faculty can be found by clicking in each of the following classical research area links.EXPAND ALLCOLLAPSE ALL


  • Carbon nanotube based transdermal drug delivery systems
  • Comprehensive two-dimensional gas chromatography – development and applications
  • Development and applications of Solid-Phase Micro-Extraction (SPME) technology for in vitro and in vivo analysis
  • Clinical and pharmaceutical applications of SPME
  • Nonlethal in-vivo SPME monitoring of biologically significant compounds and environmental contaminants in live tissues
  • Advances in multidimensional chromatography
  • Advanced separations techniques in the analysis of environmental pollutants
  • Passive air sampling in environmental analysis
  • DNA-aptamer based biosensors for detection in biological fluids
  • Electroanalytical chemistry, bioanalytical chemistry and in vitro toxicology assays
  • Micro- and nano-samples by Inductively Coupled Plasma (ICP) atomic emission and ICP-Mass Spectrometry (ICP-MS)
  • Green chromatography
  • Battery-operated micro-plasmas on-chips
  • Direct coupling of SPME to Mass Spectrometry (MS) for rapid complex sample determinations
  • Development of new formats of extraction phases and devices
  • Investigation of fundamental process in extraction


  • Particle-displayed DNA for aptamer selection and aptamer-based detection
  • Structure and function investigations of nitric oxide synthase and calmodulin
  • Mechanisms of protein aggregation
  • Protein engineering and design
  • Developing novel methods for combinatorial selection of aptamers
  • Design, synthesis and enzymology of novel enzyme inhibitors
  • Study of enzymes important in microorganisms and potential for drug design
  • Protein structure and function
  • Bionanotechnology-application of proteins and enzymes to nanotechnology
  • Structure and function of membrane-damaging toxins and antibiotics
  • Nucleic acid structure and function
  • Biomolecular Nuclear Magnetic Resonance (NMR) Spectroscopy
  • RNA as drug and drug target


  • Solid state chemistry of energy storage materials: synthesis and properties
  • Intermetallics for Proton Exchange Membrane (PEM) fuel cell catalysis
  • Solid state nitrites
  • Supercapacitors and pseudocapacitor materials
  • Solid state chemistry of lithium ion batteries
  • Heavy atom radicals as multifunctional magnetic and conductive materials
  • Solid state chemistry: advanced thermoelectric materials
  • Solid state chemistry: nonconventional polyselenides and polytellurides
  • Synthetic bioinorganic chemistry
  • Nitrogenase-inspired iron cluster chemistry
  • Reactivity studies of divalent titanium
  • Synthesis and self-assembly of organometallic monomers


  • Nanofluidics in carbon nanotubes
  • Designing carbon nanotubes to overcome bio-barriers
  • Hybrid nanostructured materials: correlation of structure, transport and electrochemical properties of alkali transition metal phosphates
  • Designing carbon nanotubes and mesoporous carbons for energy storage
  • DNA directed assembly of soft and hard nanomaterials for sensing and drug delivery
  • Synthesis and assembly of nano-materials
  • Integrative chemistry for nanomaterials
  • Complex inorganic nanostructures
  • Nanomaterials and nanodevices for diology and medicine
  • Health and environmental effects of engineered nanomaterials
  • Cell-nanomaterial interaction based devices and electronic sensors
  • Ion based self-assembly of nanoparticles and devices
  • Design and synthesis of supramolecular functional nanomaterials


  • Asymmetric conjugate additions
  • Synthesis and evaluation of b-lactamase inhibitors
  • New methods for sulfation of steroids and carbohydrates
  • Development of new methods for asymmetric synthesis
  • Stereocontrolled synthesis of biologically-relevant molecules
  • Ligand-catalyzed asymmetric transformations
  • Design of organometallic reagents for asymmetric carbon-carbon bond forming process


  • Nanofluidics in carbon nanotubes
  • Multifunctional complex oxide nano structures
  • Supercapacitors and pseudocapacitor materials
  • Solid state electrochemistry of energy storage and conversion materials
  • High resolution magic angle spinning NMR of polymer-supported peptides
  • NMR studies of prionlike peptide structures
  • Biological metal sites as studied by solid-state NMR spectroscopy
  • Solid-state implementations for Quantum Information Processing (QIP)
  • In liquid electron microscopy
  • High resolution structure and structural dynamics
  • Time-resolved characterization of two dimensional quantum materials


  • Synthesis of branched polymers using click chemistry
  • Characterization of “(AspxPhey)n” polypeptide aggregates and their potential for drug delivery applications
  • Polymer-stabilized metallic nanoparticle catalysts
  • Arborescent polymers based on amino acids
  • Microencapsulation by amphiphilic polymers for drug delivery
  • Physical characterization of branched polymers (rheology, solution viscosity, light scattering, etc.)
  • Synthesis and characterization of ionomers
  • Organometallic polymer synthesis and self-assembly


  • Internally contracted multireference coupled cluster method and  normal-order-based automatic code generator  
  • Advances in the density matrix renormalization group method for use in quantum chemistry (spin adaptation, two-body density matrix evaluation, orbital optimization)
  • Development and application of improved models for intermolecular potential energy functions
  • Dynamical studies of Van der Waals cluster solvation and their spectroscopic signatures
  • Path integral simulations of quantum fluids
  • Simulations of doped helium nano-droplets

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