{"id":10562,"date":"2025-08-11T15:50:58","date_gmt":"2025-08-11T20:50:58","guid":{"rendered":"https:\/\/uwm.edu\/webid2-test-lsweb\/?page_id=7452"},"modified":"2026-03-18T08:52:58","modified_gmt":"2026-03-18T13:52:58","slug":"all-graduate-courses","status":"publish","type":"page","link":"https:\/\/uwm.edu\/chemistry\/students\/graduate\/all-graduate-courses\/","title":{"rendered":"All Graduate Courses"},"content":{"rendered":"\n<p class=\"default \">Visit the <a href=\".\/upcoming-graduate-courses\/\">Upcoming Courses page<\/a> for a list of courses offered in the current and next semesters.<\/p>\n\n\n\n<hr class=\"has-css-opacity\" \/>\n\n\n\n<style>\ndd { \n margin-left: 30px;\n  margin-top: 0px;\n\tmargin-bottom: 0px;\n}\n<\/style>\n\n<dl><dt><strong>CHEM\u00a0497 Study Abroad:<\/strong><\/dt><dd>1-12 cr. Undergraduate\/Graduate.<br>Designed to enroll students in UWM sponsored program before course work level, content and credits are determined and\/or in specially prepared program course work.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; acceptance for Study Abroad Prog.<\/dd><dd><strong>Course Rules: <\/strong>May be retaken w\/chg in topic.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2008, Spring 2000.<\/dd><\/dd><br><dt><strong>CHEM\u00a0497G Study Abroad:<\/strong><\/dt><dd>1-12 cr. Undergraduate\/Graduate.<br>Designed to enroll students in UWM sponsored program before course work level, content and credits are determined and\/or in specially prepared program course work.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; acceptance for Study Abroad Prog.<\/dd><dd><strong>Course Rules: <\/strong>May be retaken w\/chg in topic.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2008, Spring 2000.<\/dd><\/dd><br><dt><strong>CHEM\u00a0501 Introduction to Biochemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>The chemistry of biological systems.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grade of C or better in Chem 341(P) or 345(P).<\/dd><dd><strong>Course Rules: <\/strong>Does not count toward graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025.<\/dd><\/dd><br><dt><strong>CHEM\u00a0501G Introduction to Biochemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>The chemistry of biological systems.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grade of C or better in Chem 341(P) or 345(P).<\/dd><dd><strong>Course Rules: <\/strong>Does not count toward graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025.<\/dd><\/dd><br><dt><strong>CHEM\u00a0502 Development of Modern Chemistry<\/strong><\/dt><dd>2 cr. Undergraduate\/Graduate.<br>Traces the development of chemistry from ancient to modern times.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; a grade of C or better in Chem 221(P) or 223(P), & Chem 341(P) or 343(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2020, Spring 2018.<\/dd><\/dd><br><dt><strong>CHEM\u00a0502G Development of Modern Chemistry<\/strong><\/dt><dd>2 cr. Undergraduate\/Graduate.<br>Traces the development of chemistry from ancient to modern times.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; a grade of C or better in Chem 221(P) or 223(P), & Chem 341(P) or 343(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2020, Spring 2018.<\/dd><\/dd><br><dt><strong>CHEM\u00a0524 Instrumental Analysis<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Chemical equilibria, separations, and theory and practice of instrumental measurements.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grade of C or better in Chem 221(P) or 223(P).<\/dd><dd><strong>Course Rules: <\/strong>Does not count toward a graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0524G Instrumental Analysis<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Chemical equilibria, separations, and theory and practice of instrumental measurements.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grade of C or better in Chem 221(P) or 223(P).<\/dd><dd><strong>Course Rules: <\/strong>Does not count toward a graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0543 Bioproduct Regulatory Protocols Laboratory<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Experiments in the production, purification, and characterization of biopharmaceuticals for the treatment of human disease in compliance with ICH and FDA guidelines.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; Chem\/Bio Sci 537(P); Chem 541(P); Chem 501(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2017, Spring 2016.<\/dd><\/dd><br><dt><strong>CHEM\u00a0543G Bioproduct Regulatory Protocols Laboratory<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Experiments in the production, purification, and characterization of biopharmaceuticals for the treatment of human disease in compliance with ICH and FDA guidelines.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; Chem\/Bio Sci 537(P); Chem 541(P); Chem 501(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2017, Spring 2016.<\/dd><\/dd><br><dt><strong>CHEM\u00a0560 Biophysical Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>General course designed for majors in fields other than chemistry.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing, a grade of C or better in CHEM\u00a0104(P), and MATH\u00a0211(P) or equivalent.<\/dd><dd><strong>Course Rules: <\/strong>Does not count toward a graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0560G Biophysical Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>General course designed for majors in fields other than chemistry.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing, a grade of C or better in CHEM\u00a0104(P), and MATH\u00a0211(P) or equivalent.<\/dd><dd><strong>Course Rules: <\/strong>Does not count toward a graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0561 Physical Chemistry I<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Primary focus on chemical thermodynamics.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grades of C or better in Chem 104(P), Physics 210(P) & 215(P), & Math 233(P); ElecEng 234(R) or Math 234(R).<\/dd><dd><strong>Course Rules: <\/strong>Does not count toward a graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Spring 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0561G Physical Chemistry I<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Primary focus on chemical thermodynamics.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grades of C or better in Chem 104(P), Physics 210(P) & 215(P), & Math 233(P); ElecEng 234(R) or Math 234(R).<\/dd><dd><strong>Course Rules: <\/strong>Does not count toward a graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Spring 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0562 Physical Chemistry II<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Continuation of Chem 561; course content is largely kinetics, statistical mechanics, and quantum chemistry.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grade of C or better in Chem 561(P).<\/dd><dd><strong>Course Rules: <\/strong>Does not count toward a graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0562G Physical Chemistry II<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Continuation of Chem 561; course content is largely kinetics, statistical mechanics, and quantum chemistry.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grade of C or better in Chem 561(P).<\/dd><dd><strong>Course Rules: <\/strong>Does not count toward a graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0563 Physical Chemistry Laboratory<\/strong><\/dt><dd>1-2 cr. Undergraduate\/Graduate.<br><\/dd><dd><strong>Prerequisites: <\/strong>jr st & grade of C or better in Chem 221(P) or 223(P) & Chem 561(P).<\/dd><dd><strong>Course Rules: <\/strong>Carries grad cr for students other than chem students.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0563G Physical Chemistry Laboratory<\/strong><\/dt><dd>1-2 cr. Undergraduate\/Graduate.<br><\/dd><dd><strong>Prerequisites: <\/strong>jr st & grade of C or better in Chem 221(P) or 223(P) & Chem 561(P).<\/dd><dd><strong>Course Rules: <\/strong>Carries grad cr for students other than chem students.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0599 Special Projects in Chemistry<\/strong><\/dt><dd>3-5 cr. Undergraduate\/Graduate.<br>Directed study or research on subjects selected by the instructor. For further information consult dept chair.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; cons instr.<\/dd><dd><strong>Course Rules: <\/strong>May be retaken to 7 cr max. Does not count toward a graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Summer 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0599G Special Projects in Chemistry<\/strong><\/dt><dd>3-5 cr. Undergraduate\/Graduate.<br>Directed study or research on subjects selected by the instructor. For further information consult dept chair.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; cons instr.<\/dd><dd><strong>Course Rules: <\/strong>May be retaken to 7 cr max. Does not count toward a graduate degree in chemistry.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Summer 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0601 Biochemistry: Protein Structure and Function<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Cellular synthesis of proteins, protein structure\/function, enzyme mechanisms.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing and a grade of C or better in CHEM\u00a0345(P) or CHEM\u00a0501(P); and CHEM\u00a0560(C) or CHEM\u00a0562(C).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0601G Biochemistry: Protein Structure and Function<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Cellular synthesis of proteins, protein structure\/function, enzyme mechanisms.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing and a grade of C or better in CHEM\u00a0345(P) or CHEM\u00a0501(P); and CHEM\u00a0560(C) or CHEM\u00a0562(C).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0602 Biochemistry: Cellular Processes<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Biosynthesis and metabolism of nucleic acids, structure and replication of DNA, control of gene expression, signal transduction.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing and a grade of C or better in CHEM\u00a0501(P); or consent of instructor.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025.<\/dd><\/dd><br><dt><strong>CHEM\u00a0602G Biochemistry: Cellular Processes<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Biosynthesis and metabolism of nucleic acids, structure and replication of DNA, control of gene expression, signal transduction.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing and a grade of C or better in CHEM\u00a0501(P); or consent of instructor.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025.<\/dd><\/dd><br><dt><strong>CHEM\u00a0603 Introduction to Biochemistry Laboratory<\/strong><\/dt><dd>2 cr. Undergraduate\/Graduate.<br>Experiments in biological preparations, colorimetry, and chromatography.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing; a grade of C or better in CHEM\u00a0221(P) or CHEM 223(P); a grade of C or better in CHEM\u00a0501(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025.<\/dd><\/dd><br><dt><strong>CHEM\u00a0603G Introduction to Biochemistry Laboratory<\/strong><\/dt><dd>2 cr. Undergraduate\/Graduate.<br>Experiments in biological preparations, colorimetry, and chromatography.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing; a grade of C or better in CHEM\u00a0221(P) or CHEM 223(P); a grade of C or better in CHEM\u00a0501(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025.<\/dd><\/dd><br><dt><strong>CHEM\u00a0604 Biochemistry: Metabolism<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Glycolysis, photosynthesis, biosynthesis, metabolism.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing and a grade of C or better in CHEM\u00a0501(P); or consent of instructor.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025.<\/dd><\/dd><br><dt><strong>CHEM\u00a0604G Biochemistry: Metabolism<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Glycolysis, photosynthesis, biosynthesis, metabolism.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing and a grade of C or better in CHEM\u00a0501(P); or consent of instructor.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025.<\/dd><\/dd><br><dt><strong>CHEM\u00a0611 Physical Inorganic Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Physical and theoretical aspects of inorganic chemistry (spectroscopy, crystallography, kinetic and theoretical methods) are discussed.<\/dd><dd><strong>Prerequisites: <\/strong>CHEM\u00a0311(P).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0611G Physical Inorganic Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Physical and theoretical aspects of inorganic chemistry (spectroscopy, crystallography, kinetic and theoretical methods) are discussed.<\/dd><dd><strong>Prerequisites: <\/strong>CHEM\u00a0311(P).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0612 Transition Metal and Organometallic Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Advanced survey of elements, emphasizing transition elements and organometallic species. Main group organometallics and actinides and lanthanides briefly discussed.<\/dd><dd><strong>Prerequisites: <\/strong>Chem 511(P) or cons instr.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Spring 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0612G Transition Metal and Organometallic Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Advanced survey of elements, emphasizing transition elements and organometallic species. Main group organometallics and actinides and lanthanides briefly discussed.<\/dd><dd><strong>Prerequisites: <\/strong>Chem 511(P) or cons instr.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Spring 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0613 Main Group Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Advanced survey of metallic and non-metallic main group elements.<\/dd><dd><strong>Prerequisites: <\/strong>jr st & grade of C or better in Chem 511(P); or grad st.<\/dd><\/dd><br><dt><strong>CHEM\u00a0613G Main Group Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Advanced survey of metallic and non-metallic main group elements.<\/dd><dd><strong>Prerequisites: <\/strong>jr st & grade of C or better in Chem 511(P); or grad st.<\/dd><\/dd><br><dt><strong>CHEM\u00a0614 Bio-Inorganic Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Inorganic chemistry for biological systems; metaloproteins; coordination chemistry in enzymes.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grade of C or better in Chem 511(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2012, Spring 2007.<\/dd><\/dd><br><dt><strong>CHEM\u00a0614G Bio-Inorganic Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Inorganic chemistry for biological systems; metaloproteins; coordination chemistry in enzymes.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grade of C or better in Chem 511(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2012, Spring 2007.<\/dd><\/dd><br><dt><strong>CHEM\u00a0628 Nuclear and Radiochemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Survey of modern nuclear and radiochemistry; emphasis on the interactions of radiation with matter and application in radiation detection and measurement.<\/dd><dd><strong>Prerequisites: <\/strong>jr st.; grades of B or better in Chem 524(P), 561(P), 562(P), & 563(P) or equiv; cons instr for undergrads.<\/dd><dd><strong>Course Rules: <\/strong>Counts as repeat of Chem 726 w\/same topic.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2023, Spring 2022.<\/dd><\/dd><br><dt><strong>CHEM\u00a0628G Nuclear and Radiochemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Survey of modern nuclear and radiochemistry; emphasis on the interactions of radiation with matter and application in radiation detection and measurement.<\/dd><dd><strong>Prerequisites: <\/strong>jr st.; grades of B or better in Chem 524(P), 561(P), 562(P), & 563(P) or equiv; cons instr for undergrads.<\/dd><dd><strong>Course Rules: <\/strong>Counts as repeat of Chem 726 w\/same topic.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2023, Spring 2022.<\/dd><\/dd><br><dt><strong>CHEM\u00a0630 Computational Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Computer modeling techniques for molecular systems.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grade of C or better in Chem 562(P) or cons instr.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2014, Fall 2012.<\/dd><\/dd><br><dt><strong>CHEM\u00a0630G Computational Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Computer modeling techniques for molecular systems.<\/dd><dd><strong>Prerequisites: <\/strong>jr st; grade of C or better in Chem 562(P) or cons instr.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2014, Fall 2012.<\/dd><\/dd><br><dt><strong>CHEM\u00a0640 Advanced Survey of Organic Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Application of modern instrumental methods to the separation, analysis, and identification of organic compounds.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing and a grade of C or better in CHEM\u00a0345(P).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0640G Advanced Survey of Organic Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Application of modern instrumental methods to the separation, analysis, and identification of organic compounds.<\/dd><dd><strong>Prerequisites: <\/strong>junior standing and a grade of C or better in CHEM\u00a0345(P).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0647 Physical Methods of Organic Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Application of modern instrumental methods to the separation, analysis, and identification of organic compounds.<\/dd><dd><strong>Prerequisites: <\/strong>jr st, a grade of C or better in Chem 345(P), 346(P), 524(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Spring 2022.<\/dd><\/dd><br><dt><strong>CHEM\u00a0647G Physical Methods of Organic Chemistry<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Application of modern instrumental methods to the separation, analysis, and identification of organic compounds.<\/dd><dd><strong>Prerequisites: <\/strong>jr st, a grade of C or better in Chem 345(P), 346(P), 524(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Spring 2022.<\/dd><\/dd><br><dt><strong>CHEM\u00a0661 Intermediate Chemical Thermodynamics<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Laws of thermodynamics equilibria between phases. Introductory statistical thermodynamics. Thermodynamic properties of gases, solids, and solutions.<\/dd><dd><strong>Prerequisites: <\/strong>sr st, a grade of C or better in Chem 562(P).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2014, Fall 2013.<\/dd><\/dd><br><dt><strong>CHEM\u00a0661G Intermediate Chemical Thermodynamics<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Laws of thermodynamics equilibria between phases. Introductory statistical thermodynamics. Thermodynamic properties of gases, solids, and solutions.<\/dd><dd><strong>Prerequisites: <\/strong>sr st, a grade of C or better in Chem 562(P).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2014, Fall 2013.<\/dd><\/dd><br><dt><strong>CHEM\u00a0662 Chemical Kinetics and Dynamics<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Present understanding of reaction kinetics and dynamics. Topics range from experimental methods for kinetics measurements to microscopic theories of reaction rates.<\/dd><dd><strong>Prerequisites: <\/strong>senior standing and a grade of C or better in CHEM\u00a0562(P).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024, Fall 2022.<\/dd><\/dd><br><dt><strong>CHEM\u00a0662G Chemical Kinetics and Dynamics<\/strong><\/dt><dd>3 cr. Undergraduate\/Graduate.<br>Present understanding of reaction kinetics and dynamics. Topics range from experimental methods for kinetics measurements to microscopic theories of reaction rates.<\/dd><dd><strong>Prerequisites: <\/strong>senior standing and a grade of C or better in CHEM\u00a0562(P).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024, Fall 2022.<\/dd><\/dd><br><dt><strong>CHEM\u00a0701 Topics in Biochemistry:<\/strong><\/dt><dd>2-4 cr. Graduate.<br>Selected topics in biochemistry. Two topics, each for 2 cr, will last 1\/2 of the semester. Students may enroll in either (2 cr) or both (4 cr). The 3 cr option offers a more complete coverage of a single topic for a full semester.<\/dd><dd><strong>Prerequisites: <\/strong>grad st; grade of C or better in Chem 501(P) or 601(P).<\/dd><dd><strong>Course Rules: <\/strong>Retakable w\/chg in topic to 9 cr max.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2024, Spring 2020, Spring 2019, Spring 2018.<\/dd><\/dd><br><dt><strong>CHEM\u00a0710 Advanced Survey of Inorganic Chemistry<\/strong><\/dt><dd>3 cr. Graduate.<br>Graduate-level treatment of theoretical principles and descriptive chemistry of the elements.<\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2010, Fall 2008, Fall 2007, Fall 2006.<\/dd><\/dd><br><dt><strong>CHEM\u00a0711 Topics in Inorganic Chemistry:<\/strong><\/dt><dd>3 cr. Graduate.<br>Selected topics of current research interest in inorganic chemistry are discussed in detail.<\/dd><dd><strong>Prerequisites: <\/strong>graduate standing.<\/dd><dd><strong>Course Rules: <\/strong>Retakable with change in topic to 9 cr max.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Spring 2024, Fall 2023, Fall 2022.<\/dd><\/dd><br><dt><strong>CHEM\u00a0724 Electrochemistry<\/strong><\/dt><dd>3 cr. Graduate.<br>Surey of modern electrochemical theory and applications to measurement of solution concentrations, rate constants, thermodynamic quantities, transport properties, and adsorption phenomena.<\/dd><dd><strong>Prerequisites: <\/strong>grad st; grade of C or better in Chem 524(P) or 621(P).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2009, Fall 2005, Fall 2003, Spring 2001.<\/dd><\/dd><br><dt><strong>CHEM\u00a0726 Topics in Analytical Chemistry:<\/strong><\/dt><dd>3 cr. Graduate.<br>Selected topics which reflect current advances in analytical chemistry.<\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>May be retaken with change in topic to max of 9 cr.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2023, Spring 2017, Spring 2015, Spring 2014.<\/dd><\/dd><br><dt><strong>CHEM\u00a0731 Topics in Chemistry Education Research:<\/strong><\/dt><dd>3 cr. Graduate.<br>Introductory course in qualitative research methods using chemistry education and discipline-based education research as a context.<\/dd><dd><strong>Prerequisites: <\/strong>graduate standing.<\/dd><dd><strong>Course Rules: <\/strong>May be retaken with change in topic to 9 cr max.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0740 Advanced Organic Chemistry-Methods in Synthetic Chemistry<\/strong><\/dt><dd>3 cr. Graduate.<br>Discussion of name reactions and other synthetic methods of preparative significance used in organic syntheses. Introduction and modification of functional groups. Recent examples of application from modern organic chemistry.<\/dd><dd><strong>Prerequisites: <\/strong>grad st; a grade of C or better in Chem 345(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2009, Spring 2006, Spring 2003, Spring 2000.<\/dd><\/dd><br><dt><strong>CHEM\u00a0741 Topics in Organic Chemistry:<\/strong><\/dt><dd>2-3 cr. Graduate.<br>Current topics in organic chemistry, e.g., organometallic compounds, bioorganic chemistry, non-covalent interactions, reaction mechanisms, alkaloid total synthesis or photochemistry. Offered w\/1 topic (3cr), w\/2 (2cr ea); if two, take one or both.<\/dd><dd><strong>Prerequisites: <\/strong>grad st; grade of C or better in Chem 345(P).<\/dd><dd><strong>Course Rules: <\/strong>Retakable w\/chg in topic to 9 cr max.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Spring 2023, Spring 2021, Fall 2020.<\/dd><\/dd><br><dt><strong>CHEM\u00a0743 Medicinal Chemistry: Drug Discovery\/Lead Optimization & DNA as Drug Targets<\/strong><\/dt><dd>3 cr. Graduate.<br>Major principles of drug discovery; focus on nucleic acids as drug targets.<\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>Counts as repeat of Chem 741 w\/ Medicinal Chemistry I topic.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Spring 2024, Fall 2021, Fall 2020.<\/dd><\/dd><br><dt><strong>CHEM\u00a0744 Medicinal Chemistry: Pharmacokinetics\/Enzymes & Receptors as Drug Targets<\/strong><\/dt><dd>3 cr. Graduate.<br>Principles of drug development; focus on protein drug targets.<\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>Counts as repeat of Chem 741 w\/ Medicinal Chemistry II subtitle.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2023, Spring 2021, Spring 2019, Spring 2018.<\/dd><\/dd><br><dt><strong>CHEM\u00a0748 Physical Organic Chemistry<\/strong><\/dt><dd>3 cr. Graduate.<br>Application of kinetics and other physical principles to the determination of reaction mechanisms.<\/dd><dd><strong>Prerequisites: <\/strong>grad st; a grade of C or better in Chem 562(P) & 640(P).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2019, Fall 2017, Spring 2013, Spring 2011.<\/dd><\/dd><br><dt><strong>CHEM\u00a0762 Topics in Physical Chemistry:<\/strong><\/dt><dd>3 cr. Graduate.<br>In-depth discussion of selected topics of current interest in modern physical chemistry.<\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>Retakeable with change in topic to 9 cr max.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2023, Fall 2022, Spring 2017, Fall 2016.<\/dd><\/dd><br><dt><strong>CHEM\u00a0765 Statistical Thermodynamics<\/strong><\/dt><dd>3 cr. Graduate.<br>Fundamental principles of statistical mechanics, with applications to topics of physiochemical interest.<\/dd><dd><strong>Prerequisites: <\/strong>grad st; grade of C or better in Chem 661(P).<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024, Spring 2023, Spring 2022, Fall 2019.<\/dd><\/dd><br><dt><strong>CHEM\u00a0767 Basic Quantum Chemistry<\/strong><\/dt><dd>3 cr. Graduate.<br>Basic postulates of quantum mechanics and consequences. Exact solutions for simple systems. Approximation methods for complex systems. Group theory and applications in organic, inorganic, and physical chemistry.<\/dd><dd><strong>Prerequisites: <\/strong>grad st; a grade of C or better in Chem 562(P), 564(P), & Math 234(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2024, Spring 2020, Spring 2018, Spring 2016.<\/dd><\/dd><br><dt><strong>CHEM\u00a0769 Surface Chemistry II<\/strong><\/dt><dd>3 cr. Graduate.<br>Discussion of kinetic methods of studying reaction mechanisms with particular emphasis on catalytic reactions.<\/dd><dd><strong>Prerequisites: <\/strong>grad st; grade of C or better in Chem 768(P).<\/dd><dd><strong>Last Taught: <\/strong>Spring 2019, Spring 2017, Spring 2015, Spring 2013.<\/dd><\/dd><br><dt><strong>CHEM\u00a0780 Modern Industrial Organic Chemistry<\/strong><\/dt><dd>3 cr. Graduate.<br>Organic chemical processes-comprehensive emphasis on chemistry, polymers (preparation, properties, application), energy aspects, raw material supplies, impact on nation's and world's economics.<\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>Recommended for minor in polymer chem.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2017, Spring 2013, Spring 2011, Spring 2002.<\/dd><\/dd><br><dt><strong>CHEM\u00a0781 Pulsed NMR Spectroscopy Theory and Practice<\/strong><\/dt><dd>3 cr. Graduate.<br>Discussion and hands on practice of modern FT NMR approaches applied to analysis of chemical structure and dynamics in organic, inorganic, and biochemical molecules.<\/dd><dd><strong>Prerequisites: <\/strong>grad st; cons instr.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024, Fall 2023, Fall 2022, Fall 2020.<\/dd><\/dd><br><dt><strong>CHEM\u00a0782 Liquid Chromatography-Mass Spectrometry Fundamentals and Applications<\/strong><\/dt><dd>3 cr. Graduate.<br>Discussion and hands on practice of modern mass spectrometry, with a focus on liquid chromatography\/mass spectrometry (LC\/MS) and LC\/tandem MS (LC\/MS\/MS), as well as ICP-MS.<\/dd><dd><strong>Prerequisites: <\/strong>grad st; cons instr.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024, Spring 2024, Spring 2023, Spring 2022.<\/dd><\/dd><br><dt><strong>CHEM\u00a0798 Scientific Glassblowing<\/strong><\/dt><dd>1 cr. Graduate.<br>Techniques in design and maintenance of scientific glassware including low pressure systems together with consideration of the chemical structure and properties of common glasses.<\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Last Taught: <\/strong>Fall 2024, Spring 2024, Spring 2023, Spring 2022.<\/dd><\/dd><br><dt><strong>CHEM\u00a0900 Chemistry Colloquium<\/strong><\/dt><dd>0 cr. Graduate.<br>Weekly lectures on current research by members of the department and visiting scientists.<\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>Fee assessed for 1 cr. Required of all Chem grad students.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2012, Fall 2011, Spring 2011, Fall 2010.<\/dd><\/dd><br><dt><strong>CHEM\u00a0912 Graduate Seminar<\/strong><\/dt><dd>1 cr. Graduate.<br>Research problems in chemistry. Weekly papers and reports.<\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>Required of all candidates for advanced degree.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024, Spring 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0931 Advanced Seminar in Analytical Chemistry<\/strong><\/dt><dd>1 cr. Graduate.<br>Weekly discussions and reports on recent developments and current progress in analytical chemistry. Topics will differ each semester, reflecting current work of particular interest.<\/dd><dd><strong>Prerequisites: <\/strong>grad st & enroll in Chem 993(C).<\/dd><dd><strong>Course Rules: <\/strong>Retakable to 9 cr max. No more than 9 cr may be accumulated in courses numbered 931-935.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024, Spring 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0932 Advanced Seminar in Biochemistry<\/strong><\/dt><dd>1 cr. Graduate.<br>Weekly discussions and reports on recent developments and current progress in biochemistry. Topics will differ each semester, reflecting current work of particular interest.<\/dd><dd><strong>Prerequisites: <\/strong>grad st & enroll in Chem 996(C).<\/dd><dd><strong>Course Rules: <\/strong>Retakable to 9 cr max. No more than 9 cr may be accumulated in courses numbered 931-935.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024, Spring 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0933 Advanced Seminar in Inorganic Chemistry<\/strong><\/dt><dd>1 cr. Graduate.<br>Weekly discussions and reports on recent developments and current progress in inorganic chemistry. Topics will differ each semester, reflecting current work of particular interest.<\/dd><dd><strong>Prerequisites: <\/strong>grad st & enroll in Chem 994(C).<\/dd><dd><strong>Course Rules: <\/strong>Retakable to 9 cr max. No more than 9 cr may be accumulated in courses numbered 931-935.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024, Spring 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0934 Advanced Seminar in Organic Chemistry<\/strong><\/dt><dd>1 cr. Graduate.<br>Weekly discussions and reports on recent developments and current progress in organic chemistry. Topics will differ each semester, reflecting current work of particular interest.<\/dd><dd><strong>Prerequisites: <\/strong>grad st & enroll in Chem 990(C).<\/dd><dd><strong>Course Rules: <\/strong>Retakable to 9 cr max. No more than 9 cr may be accumulated in courses numbered 931-935.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024, Spring 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0935 Advanced Seminar in Physical Chemistry<\/strong><\/dt><dd>1 cr. Graduate.<br>Weekly discussions and reports on recent developments and current progress in physical chemistry. Topics will differ each semester, reflecting current work of particular interest.<\/dd><dd><strong>Prerequisites: <\/strong>grad st & enroll in Chem 992.<\/dd><dd><strong>Course Rules: <\/strong>Retakable to 9 cr max. No more than 9 cr may be accumulated in courses numbered 931-935.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024, Spring 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0990 Research: Organic<\/strong><\/dt><dd>1-9 cr. Graduate.<br><\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>Retakable.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024, Summer 2024, Spring 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0991 Research: Chemical Education<\/strong><\/dt><dd>1-9 cr. Graduate.<br>Research in chemical education.<\/dd><dd><strong>Prerequisites: <\/strong>grad st<\/dd><dd><strong>Course Rules: <\/strong>Retakable.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024, Spring 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0992 Research: Physical<\/strong><\/dt><dd>1-9 cr. Graduate.<br><\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>Retakable.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024, Summer 2024, Spring 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0993 Research: Analytical<\/strong><\/dt><dd>1-9 cr. Graduate.<br><\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>Retakable.<\/dd><dd><strong>Last Taught: <\/strong>Summer 2025, Spring 2025, Fall 2024, Spring 2024.<\/dd><\/dd><br><dt><strong>CHEM\u00a0994 Research: Inorganic<\/strong><\/dt><dd>1-9 cr. Graduate.<br><\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>Retakable.<\/dd><dd><strong>Last Taught: <\/strong>Spring 2025, Fall 2024, Spring 2024, Fall 2023.<\/dd><\/dd><br><dt><strong>CHEM\u00a0996 Research: Biochemical<\/strong><\/dt><dd>1-9 cr. Graduate.<br><\/dd><dd><strong>Prerequisites: <\/strong>grad st.<\/dd><dd><strong>Course Rules: <\/strong>Retakable.<\/dd><dd><strong>Last Taught: <\/strong>Summer 2025, Spring 2025, Fall 2024, Summer 2024.<\/dd><\/dd><br><\/dl>\n","protected":false},"excerpt":{"rendered":"<p>Visit the Upcoming Courses page for a list of courses offered in the current and next semesters.<\/p>\n","protected":false},"author":1272,"featured_media":6706,"parent":10560,"menu_order":4,"comment_status":"closed","ping_status":"closed","template":"","meta":{"_acf_changed":false,"footnotes":"","uwm_wg_additional_authors":[]},"class_list":["post-10562","page","type-page","status-publish","has-post-thumbnail","hentry"],"yoast_head":"<!-- This site is optimized with the Yoast SEO Premium plugin v27.2 (Yoast SEO v27.2) - https:\/\/yoast.com\/product\/yoast-seo-premium-wordpress\/ -->\n<title>Chemistry &amp; Biochemistry<\/title>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/uwm.edu\/chemistry\/students\/graduate\/all-graduate-courses\/\" \/>\n<meta property=\"og:locale\" content=\"en_US\" \/>\n<meta property=\"og:type\" content=\"article\" \/>\n<meta property=\"og:title\" content=\"All Graduate Courses\" \/>\n<meta property=\"og:description\" content=\"Visit the Upcoming Courses page for a list of courses offered in the current and next semesters.\" \/>\n<meta property=\"og:url\" content=\"https:\/\/uwm.edu\/chemistry\/students\/graduate\/all-graduate-courses\/\" \/>\n<meta property=\"og:site_name\" content=\"Chemistry &amp; 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