This Course and Program Catalogue is effective from May 2024 to April 2025.

Not all courses described in the Course and Program Catalogue are offered each year. For a list of course offerings in 2024-2025, please consult the class search website.

The following conventions are used for course numbering:

  • 010-099 represent non-degree level courses
  • 100-699 represent undergraduate degree level courses
  • 700-999 represent graduate degree level courses

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50 Results

CHEM 90.3: Introduction to Chemistry

Chemistry 90 is a preparatory access course to CHEM 112/114 for students who were unable to access, or need to review, 30-level chemistry and physical science curricula. Content focuses on core concepts, terminology, problem solving strategies, and laboratory skills foundational to success in post-secondary chemistry courses and related degree paths.

Prerequisite(s): Grade 12 Diploma or equivalent
Note: Chemistry 90 fulfills prerequisite requirements for CHEM 112 and CHEM 114, though CHEM 90 is not directly equivalent to Chemistry 30. Students who complete CHEM 90 earn 3 non-degree-level credit units. This course does not contribute to the course credit unit requirements for a university degree.


CHEM 100.3: Problem Solving Foundations for University Chemistry

An introduction to fundamental concepts and skills in chemistry, with a focus on the development of problem solving and quantitative reasoning skills. Hands-on experience will be gained in the laboratory. Topics covered include atoms, molecules, chemical equations and chemical bonding.

Weekly hours: 3 Lecture hours
Prerequisite(s): Physical Science 20
Note: This course is primarily intended for students who have not completed Chemistry 30, or completed Chemistry 30 with an average of less than 70%, or completed Chemistry 30 more than 3 years ago. This course will prepare students for CHEM 112 or CHEM 142; students with credit for CHEM 112, CHEM 114 or CHEM 146 may not take this course for credit. May be taken as an elective only in all Arts & Science degree programs.


CHEM 112.3: General Chemistry I Structure Bonding and Properties of Materials

Structure, bonding and properties of materials. Topics include atoms and molecules, bonding, molecular structure, intermolecular forces, states of matter, and properties of materials. The laboratory illustrates material covered in the lectures.

Weekly hours: 3 Lecture hours and 3.5 Practicum/Lab hours
Prerequisite(s): Chemistry 30 or CHEM 90 or CHEM 100; and (Mathematics B30 or Foundations of Mathematics 30 or Pre-Calculus 30).
Note: Foundations of Mathematics 30 or Pre-Calculus 30 is strongly recommended. Students with credit for CHEM 111 or 114 may not take this course for credit.
Note: Students registering in this course with non-academic accommodations must contact the Department of Chemistry (chem.dept@usask.ca) and Access and Equity Services (AES, https://students.usask.ca/health/centres/access-equity-services.php) prior to registering in the course. Since these courses have a laboratory component, students who fail to contact both Chemistry and AES prior to registration in order to arrange accommodation may be required to defer their registration in the course a later academic term. Examples of non-academic accommodations may include: the use of a service animal, space accommodations for students who use a wheelchair or other mobility aids, equipment accommodations, etc. Note that there will be costs in addition to tuition fees.


CHEM 115.3: General Chemistry II Chemical Processes

Chemical reactions, including the rates and energetics of reactions and specific types of reactions. Topics include stoichiometry, chemical reactions, chemical kinetics, equilibrium, specific reactions, and thermodynamics.

Weekly hours: 3 Lecture hours and 3 Practicum/Lab hours
Prerequisite(s): CHEM 111, 112 or 114.
Note: The introductory CHEM courses were changed in 2002. Students with credit for CHEM 111 may take CHEM 115. Students with CHEM 146 may not take this course for credit.
Note: Students registering in this course with non-academic accommodations must contact the Department of Chemistry (chem.dept@usask.ca) and Access and Equity Services (AES, https://students.usask.ca/health/centres/access-equity-services.php) prior to registering in the course. Since these courses have a laboratory component, students who fail to contact both Chemistry and AES prior to registration in order to arrange accommodation may be required to defer their registration in the course a later academic term. Examples of non-academic accommodations may include: the use of a service animal, space accommodations for students who use a wheelchair or other mobility aids, equipment accommodations, etc. Note that there will be costs in addition to tuition fees.


CHEM 142.1: Global Impact of Chemistry for Engineering

The course is intended as a brief introduction to general chemistry topics with emphasis on the greenhouse gas effect utilizing both qualitative and quantitative aspects of chemistry to investigate this global issue. You will learn practical applications of chemistry through course material and laboratory experiments.

Restriction(s): Restricted to students in the College of Engineering.
Prerequisite(s): Chemistry 30 or CHEM 90 or CHEM 100; and Mathematics B30 or Foundations of Mathematics 30 or Pre-Calculus 30.
Prerequisite(s) or Corequisite(s): GE 102.2
Note: Students with credit for all four of BIOL 102.1, CHEM 142.1, GEOL 102.1 and PHYS 152.1 will receive 3 credit units of elective credit in Arts & Science B.Sc. or B.A.&Sc. programs, and 3 credit units of science or elective credit in B.A., B.F.A., or B.Mus. programs. Students who do not pass all four courses will receive no credit in Arts & Science programs.


CHEM 146.3: General Chemistry for Engineering

The course is intended to provide Engineering students with a fundamental understanding of core Chemistry concepts including equilibria and chemical thermodynamics. These goals are achieved and exemplified using an overarching theme of the role of carbon dioxide in the global climate change crisis.

Restriction(s): Restricted to students in the College of Engineering.
Prerequisite(s): (Chemistry 30 or CHEM 90 or CHEM 100) and (Mathematics B30 or Foundations of Mathematics 30 or Pre-Calculus 30) and CHEM 142.1.
Note: There will be costs in addition to tuition fees. Students with credit for CHEM 115 may not take this course for credit.


CHEM 221.3: Analytical Chemistry I

Discussion of the basic principles and tenets of analytical science and how these aspects are put into practice in analytical techniques.

Weekly hours: 3 Lecture hours and 4 Practicum/Lab hours
Prerequisite(s): CHEM 115.3 or CHEM 146.3


CHEM 231.3: Inorganic Chemistry I

This course introduces the area of Inorganic Chemistry by systematically dealing with the chemistry of main group elements. Common structures of metals and ionic compounds as well as molecular properties in terms of modern theories of structure and bonding are discussed. The laboratory provides experience in the preparation and investigation of the properties of typical inorganic compounds.

Weekly hours: 3 Lecture hours and 4 Practicum/Lab hours
Prerequisite(s): CHEM 115.3 or CHEM 146.3


CHEM 242.3: Thermodynamics and Kinetics

The study of the structure of matter and the changes it undergoes. Topics include properties of materials, thermodynamics, chemical equilibria and chemical kinetics. The laboratory provides experience with the use of physical-chemical equipment and problem solving skills.

Weekly hours: 3 Lecture hours and 3 Practicum/Lab hours and 1 Tutorial hours
Prerequisite(s): CHEM 115.3 or CHEM 146.3; and one of MATH 110.3, MATH 123.3, MATH 133.4 or MATH 176.3


CHEM 250.3: Introduction to Organic Chemistry

An introduction to organic chemistry; students will learn to name organic compounds, predict some of the properties and reactivity of compounds based on molecular structure, and grasp the importance of these concepts and their application to all sciences and life in general. Almost all the reactions in living matter involve organic compounds, and it is impossible to understand the molecular processes of living systems without knowing organic chemistry. CHEM 250.3 is intended as a basis for other courses, and a beginning for understanding organic and bio-organic chemistry. The laboratory will introduce students to basic chemical laboratory skills frequently used in organic chemistry.

Weekly hours: 3 Lecture hours and 3 Practicum/Lab hours and 1 Tutorial hours
Prerequisite(s): CHEM 112.3 or CHEM 146.3.
Note: The introductory CHEM courses were changed in 2002. Students with credit for CHEM 111 may take CHEM 250. Students with credit for CHEM 251 may not take CHEM 250 for credit. Costs in addition to tuition will apply to this course. Please contact the department for details.
Note: Students registering in this course with non-academic accommodations must contact the Department of Chemistry (chem.dept@usask.ca) and Access and Equity Services (AES, https://students.usask.ca/health/centres/access-equity-services.php) prior to registering in the course. Since these courses have a laboratory component, students who fail to contact both Chemistry and AES prior to registration in order to arrange accommodation may be required to defer their registration in the course a later academic term. Examples of non-academic accommodations may include: the use of a service animal, space accommodations for students who use a wheelchair or other mobility aids, equipment accommodations, etc.


CHEM 255.3: Bio Organic Chemistry

Intended to give insight into the specific and fundamental role of organic reactions occurring in nature, to students of all scientific disciplines who have been introduced to organic chemistry and to the life sciences. The emphasis will be on the patterns of reactivity among natural products, rather than on the biochemical roles that these molecules play. The laboratory will introduce students to experimental approaches to biomimetic, biological and pharmaceutical chemistry.

Weekly hours: 3 Lecture hours and 3 Practicum/Lab hours and 1 Tutorial hours
Prerequisite(s): CHEM 250.
Note: CHEM 115 and BMSC 200 are recommended. Students with credit for CHEM 252 may not take CHEM 255 for credit.


CHEM 298.3: Special Topics

Offered occasionally by visiting faculty and in other special situations. Students interested in these courses should contact the department for more information.

Weekly hours: 3 Lecture hours


CHEM 299.6: Special Topics

Offered occasionally by visiting faculty and in other special situations. Students interested in these courses should contact the department for more information.

Weekly hours: 3 Lecture hours


CHEM 322.3: Analytical Chemistry II

Introduction to modern instrumental methods of chemical analyses. The laboratory is designed to develop basic understanding of common instrumental methods. Topics include chromatography, electrophoresis, electrochemistry and spectroscopy.

Weekly hours: 3 Lecture hours and 4 Practicum/Lab hours
Prerequisite(s): CHEM 221.


CHEM 332.3: Inorganic Chemistry II

An introduction to transition metal chemistry including molecular symmetry coordination chemistry, electronic structure and properties of d-metal complexes, characterization techniques in inorganic chemistry and organometallic chemistry. The laboratory work includes experiments on the preparation, characterization and applications of transition metal compounds.

Weekly hours: 3 Lecture hours and 4 Practicum/Lab hours
Prerequisite(s): CHEM 231.


CHEM 334.3: Materials Chemistry

Materials chemistry involves the study of the synthesis, properties, characterization, and applications of solid state and polymeric materials. This course is fashioned to illustrate how chemistry can be rationally used to synthesize a wide range of materials with properties that can be tailored for advanced technologies.

Weekly hours: 3 Lecture hours
Prerequisite(s): CHEM 231


CHEM 344.3: Introductory Chemical Quantum Mechanics

An introduction to quantum mechanics and chemical systems as a foundation for courses concerned with the theory and spectroscopy of atomic and molecular systems.

Weekly hours: 3 Lecture hours and 3 Practicum/Lab hours and 1 Tutorial hours
Prerequisite(s): CHEM 242.3 and (MATH 116.3, MATH 124.3, MATH 134.3 or MATH 177.3 (MATH 116 preferred)) and (PHYS 117.3 or PHYS 125.3 (PHYS 125 preferred)).
Note: Students with credit for CHEM 243 may not take this course for credit.


CHEM 353.3: Organic Structure Analysis

Presents the theory and practice of various spectroscopic methods for structure determination with a focus on NMR based methods. Emphasizes the integrated interpretation of spectroscopic data and problem solving. The laboratory component provides practical experience in the processing and interpretation of spectroscopic data.

Weekly hours: 3 Lecture hours and 2 Practicum/Lab hours
Prerequisite(s): CHEM 250.
Note: Students with credit for CHEM 458 may not take this course for credit.


CHEM 354.3: Physical Organic Chemistry

Provides a greater understanding of the structure of organic compounds, and the underlying principles and rationale for organic reactions. The laboratory combines preparative, analytical, and computational experiments to enhance the understanding of physical and mechanistic aspects of organic chemistry.

Weekly hours: 3 Lecture hours and 4 Practicum/Lab hours
Prerequisite(s): CHEM 115.3 or CHEM 146.3; and CHEM 255.3.


CHEM 369.3: Synthetic Chemistry Practicum

Laboratory course focusing on fundamental experimental techniques of synthetic chemistry (organic and inorganic). The course will focus on techniques used to quantitatively measure, transfer, and purify chemical substances including those requiring protection from air and moisture. The main part of the course will integrate those techniques in multi-step syntheses.

Weekly hours: 8 Practicum/Lab hours
Permission of the coordinator required.
Prerequisite(s): CHEM 255 and 332.


CHEM 375.3: Environmental Chemistry

The disposal and treatment of waste materials will be discussed in terms of their effect on the gaseous and aqueous environments. A series of problems designed to illustrate the material covered in each topic will be assigned. The laboratory sessions are designed to give some understanding of how tests for environmental quality are carried out in the field and in the laboratory.

Weekly hours: 3 Lecture hours and 3 Practicum/Lab hours
Prerequisite(s): CHEM 115.3 or CHEM 146.3


CHEM 377.3: Industrial Chemistry

Students will learn about the applications of the chemical principles discussed in first year courses that are used in the chemical industry, especially Saskatchewan industries. Areas of chemistry discussed may include water chemistry, complexation, ion exchange, surface chemistry, electrochemistry, gas absorption/adsorption, chemical extraction, thermodynamics, and materials characterization.

Weekly hours: 3 Lecture hours
Prerequisite(s): CHEM 115.3 or CHEM 146.3; and one of MATH 110.3, MATH 123.3, MATH 125.3, MATH 133.4, or MATH 176.3


CHEM 380.3: 3rd Year Research

A laboratory, library, theoretical or computer study under the supervision of a member of the Department. Project is intended to be carried out during the third year of the program. At the end of the project the student will present both an oral and a written report summarizing the results.

Weekly hours: 6 Practicum/Lab hours
Permission of the department required.
Prerequisite(s): 21 credit units in CHEM.
Note: Students who have 30 credit units or more of CHEM courses should take CHEM 482 or 483 instead. Students who have credit for CHEM 482 or CHEM 483 may not take this course for credit.


CHEM 398.3: Special Topics

Offered occasionally by visiting faculty and in other special situations to cover, in depth, topics that are not thoroughly covered in regularly offered courses.

Weekly hours: 3 Lecture hours


CHEM 399.6: Special Topics

Offered occasionally by visiting faculty and in other special situations. Students interested in these courses should contact the department for more information.

Weekly hours: 3 Lecture hours


CHEM 402.0: Seminar

Attendance at departmental seminar sessions throughout the academic year is required by students in the final year of a Four-year or Honours program. Consists of presentations by departmental visitors, faculty and students, followed by discussions.

Weekly hours: 1 Seminar/Discussion hours


CHEM 420.3: Selected Topics in Analytical Chemistry

This course covers advanced techniques in chemical analysis. Topics will include analytical methods not covered in CHEM 221.3 or CHEM 322.3, more detailed discussion of fundamental concepts, and the applications of analytical chemistry in various disciplines.

Weekly hours: 3 Lecture hours
Prerequisite(s): CHEM 322.
Note: Students may take this course more than once for credit, provided the topics covered in each offering differ substantially. In such cases, students must consult the Department to ensure that the topics covered are different.


CHEM 430.3: Selected Topics in Inorganic Chemistry

Selected topics that are not dealt with or are covered only at an elementary level in other inorganic chemistry courses offered by the department. Possible topics include crystallographic and spectroscopic methods of structure determination, organometallic chemistry, cluster compounds, catalysis, nonaqueous solution chemistry, bioinorganic chemistry, structure and bonding, and excited state processes.

Weekly hours: 3 Lecture hours
Prerequisite(s): CHEM 332.
Note: Students in programs other than Chemistry who have credit for CHEM 231 or its equivalent may seek permission from the department. Students may take this course more than once for credit, provided the topic covered in each offering differs substantially. Students must consult the Department to ensure that the topics covered are different.


CHEM 435.3: Chemical Applications of Group Theory

Understanding the connection between symmetry and electronic and spectroscopic properties of molecules is the main objective of this course. A systematic introduction of point-group symmetries and group theory is provided.

Weekly hours: 3 Lecture hours
Prerequisite(s): CHEM 332.
Note: CHEM 344 (formerly CHEM 243) recommended. Students in programs other than Chemistry who have credit for CHEM 231 or its equivalent may seek permission from the department.


CHEM 440.3: Selected Topics in Physical Chemistry

Selected topics that are not dealt with or are covered only at an elementary level in other physical chemistry courses offered by the department. Possible topics include advanced spectroscopy, nuclear chemistry, photochemistry, polymers, radiation chemistry, solid-state chemistry, structural techniques, surface and colloid chemistry.

Weekly hours: 3 Lecture hours
Prerequisite(s): CHEM 242 and permission of the instructor.
Note: Students may take this course more than once for credit, provided the topic covered in each offering differs substantially. Students must consult the Department to ensure that the topics covered are different.


CHEM 450.3: Selected Topics in Organic Chemistry

Selected topics that are not dealt with or are covered only at an elementary level in other organic chemistry courses offered by the department. Possible topics include organic synthesis, organic reaction mechanisms, natural products, organometallic chemistry, heterocyclic chemistry, carbohydrate chemistry and organic photochemistry.

Weekly hours: 3 Lecture hours
Permission of the department required.
Prerequisite(s): CHEM 255.
Note: Students may take this course more than once for credit, provided the topic covered in each offering differs substantially. Students must consult the Department to ensure that the topics covered are different.


CHEM 479.3: Polymer Chemistry

This course explores the field of polymer chemistry. Synthetic methods for polymer preparation will be discussed, including condensation, radical, ionic, and ring-opening approaches. The solid-state structure, phase behavior, and mechanical properties of polymers will be covered, as well as current topics of interest in the literature.

Weekly hours: 3 Lecture hours
Prerequisite(s): CHEM 242 and CHEM 255.
Note: Students can receive credit for only one CHEM 879 or CHEM 479.


CHEM 482.3: 4th Year Research

A laboratory, library, theoretical or computer study under the supervision of a member of the Department. Project is intended to be carried out during the final year of the program. At the end of the project the student will present both an oral and a written report summarizing the results.

Weekly hours: 6 Practicum/Lab hours
Permission of the department required.
Prerequisite(s): 30 credit units in CHEM.
Note: Students who have credit for both CHEM 380 and CHEM 483 may not take this course for credit.


CHEM 483.6: 4th Year Research

A laboratory, library, theoretical or computer study under the supervision of a member of the Department. Project will be carried out throughout the final year of the program. At the end of the project the student will present both an oral and a written report summarizing the results.

Weekly hours: 6 Practicum/Lab hours
Permission of the department required.
Prerequisite(s): 30 credit units of CHEM.
Note: Students who have credit for both CHEM 380 and CHEM 482 may not take this course for credit.


CHEM 498.3: Special Topics

Offered occasionally by visiting faculty and in other special situations to cover, in depth, topics that are not thoroughly covered in regularly offered courses.

Weekly hours: 3 Lecture hours


CHEM 499.6: Special Topics

Offered occasionally by visiting faculty and in other special situations. Students interested in these courses should contact the department for more information.

Weekly hours: 3 Lecture hours


CHEM 801.6: Modern Aspects of Chemistry

An overview of the core material required for graduate research in chemistry presented in modular form. Emphasis is placed on integrating chemical knowledge from all subdisciplines of chemistry encompassing both experimental and theoretical approaches.

Weekly hours: 9 Lecture hours


CHEM 802.3: Modern Aspects of Chemistry

An overview of the core material for graduate research in chemistry presented in modular form. Emphasis is placed on the integration of chemical knowledge from all chemistry encompassing both experimental and theoretical approaches.

Weekly hours: 3 Seminar/Discussion hours
Note: Students with credit for CHEM 801.6 may not take CHEM 802.3 for credit.


CHEM 815.3: Selected Topics in Biological Chemistry

This course will instruct students in advanced and modern aspects of biological chemistry, particularly biological catalysis and structure-function relationships, and emphasizing chemical and quantitative approaches to biological research.

Permission of the instructor is required.
Note: Students may take this course more than once for credit, provided the topic covered in each offering differs substantially. Students must consult the Department to ensure that the topics covered are different.


CHEM 832.3: Selected Topics in Inorganic Chemistry

Selected topics that are not dealt with or are covered only briefly in other chemistry courses offered by the department.

Weekly hours: 3 Lecture hours
Note: Students may take this course more than once for credit, provided the topic covered in each offering differs substantially. Students must consult the Department to ensure that the topics covered are different.


CHEM 833.3: Characterization Methods in Materials Chemistry

This course develops an awareness of a variety of characterization techniques in materials chemistry, especially x-ray spectroscopy, diffraction, scattering, and electron microscopy techniques.


CHEM 834.3: Selected Topics in Physical Chemistry

Selected topics that are not dealt with or are covered only briefly in other chemistry courses offered by the department.

Weekly hours: 3 Lecture hours
Note: Students may take this course more than once for credit, provided the topic covered in each offering differs substantially. Students must consult the Department to ensure that the topics covered are different.


CHEM 852.3: Selected Topics in Organic Chemistry

Selected topics that are not dealt with or are covered only briefly in other chemistry courses offered by the department.

Weekly hours: 3 Lecture hours
Note: Students may take this course more than once for credit, provided the topic covered in each offering differs substantially. Students must consult the Department to ensure that the topics covered are different.


CHEM 879.3: Advanced Polymer Chemistry

This course explores the field of polymer chemistry. Synthetic methods for polymer preparation will be discussed, including condensation, radical, ionic, and ring-opening approaches. The solid-state structure, phase behavior, and mechanical properties of polymers will be covered, as well as current topics of interest in the literature.

Weekly hours: 3 Lecture hours
Note: CHEM 879 is mutually exclusive with CHEM 479. Students shall not receive credit for both.


CHEM 898.N/A: Special Topics

Offered occasionally in special situations. Students interested in these courses should contact the department for more information.


CHEM 899.N/A: Special Topics

Offered occasionally in special situations. Students interested in these courses should contact the department for more information.


CHEM 990.0: Seminar

Weekly chemistry seminar series. Graduate students are required to attend these seminars for the duration of their program and are expected to present a seminar near the end of their degree (PhD students only).


CHEM 991.0: Literature Core Course

Offers graduate students a formal framework for the critical discussion of current chemical literature and for the critical assessment of its importance. Students will give oral presentations based on research articles from premier chemical journals.

Weekly hours: 1 Seminar/Discussion hours


CHEM 994.0: Research – Thesis

Students writing a Master's thesis must register for this course.


CHEM 996.0: Research – Dissertation

Students writing a Ph.D. thesis must register for this course.