Annual 2017-18 Class Schedule
Course # | Course Title | Fall | Winter | Spring |
---|---|---|---|---|
CHEM 105-6 | Freshman Seminar | Priest | Hatch | |
CHEM 105-6 Freshman SeminarTopics vary. | ||||
CHEM 105-6 | Freshman Seminar | Trzupek | ||
CHEM 105-6 Freshman SeminarTopics vary. | ||||
CHEM 110-0 | Quantitative Problem Solving in Chemistry | Northrup | ||
CHEM 110-0 Quantitative Problem Solving in ChemistrySolution strategies for traditional word problems and their application to basic chemistry quantitative problems: dimensional analysis, chemical equations, stoichiometry, limiting reagents. Students with an AP Chem score of 5 or an IB (HL) Chem score of 7 are not eligible to take this course. Prerequisite: permission of department by assessment. Please contact Dr. Fred Northrup at f-northrup@northwestern.edu regarding permission. | ||||
CHEM 131-0 | General Chemistry 1 | Odom | ||
CHEM 131-0 General Chemistry 1Quantum mechanics, electronic structure, periodic properties of the elements, chemical bonding, thermodynamics, intermolecular forces, properties of solids and liquids, special topics in modern chemistry. Must be taken concurrently with the Chem 141-0 laboratory course. Prerequisite: Chem 110-0 (C- or better). Students may not start the sequence in this course. All Chemistry course sequences start in Fall Quarter. | ||||
CHEM 132-0 | General Chemistry 2 | Freedman | ||
CHEM 132-0 General Chemistry 2Solutions and colligative properties, chemical equilibrium, aqueous solution equilibria, chemical kinetics, metals in chemistry and biology, oxidation-reduction reactions and electrochemistry, special topics in modern chemistry. Must be taken concurrently with the Chem 142-0 laboratory course. Prerequisite: Chem 131-0 and Chem 141-0 (C- or better in both courses). Students may not start the sequence in this course. All Chemistry course sequences start in Fall Quarter. | ||||
CHEM 141-0 | General Chemistry Laboratory 1 | Knezz/Berns | ||
CHEM 141-0 General Chemistry Laboratory 1No description available. | ||||
CHEM 142-0 | General Chemistry Laboratory 2 | Knezz/Berns | ||
CHEM 142-0 General Chemistry Laboratory 2No description available. | ||||
CHEM 151-0 | Accelerated General Chemistry 1 | Weitz | ||
CHEM 151-0 Accelerated General Chemistry 1Quantum mechanics, electronic structure, periodic properties of the elements, chemical bonding, thermodynamics, gas laws, intermolecular forces, properties of solids and liquids, special topics in modern chemistry. Must be taken concurrently with the Chem 161-0 laboratory course. Students with an AP Chem score of 5 or an IB (HL) Chem score of 7 are not eligible to take this course. Prerequisite: permission of department by assessment. Please contact Dr. Fred Northrup at f-northrup@northwestern.edu regarding permission. | ||||
CHEM 152-0 | Accelerated General Chemistry 2 | Harris/Mirkin | ||
CHEM 152-0 Accelerated General Chemistry 2Solutions and colligative properties, chemical equilibrium, aqueous solution equilibria, chemical kinetics, metals in chemistry and biology, oxidation-reduction reactions and electrochemistry, special topics in modern chemistry. Must be taken concurrently with the Chem 162-0 laboratory course. Prerequisites: Chem 151-0 and Chem 161-0 (C- or better in both courses). Students may not start the sequence in this course. All Chemistry course sequences start in Fall Quarter. | ||||
CHEM 161-0 | Accelerated General Chemistry Laboratory 1 | Knezz | ||
CHEM 161-0 Accelerated General Chemistry Laboratory 1No description available. | ||||
CHEM 162-0 | General Inorganic Chemistry Lab | Knezz/Berns | ||
CHEM 162-0 General Inorganic Chemistry LabNo description available. | ||||
CHEM 171-0 | Advanced General Chemistry 1 | Schatz | ||
CHEM 171-0 Advanced General Chemistry 1Review of mole problems and stoichiometry; descriptive chemistry, elements, compounds, and inorganic reactions; gas laws; phase equilibria and colligative properties; chemical equilibrium; aqueous equilibria; topics in chemical bonding and molecular structure. Must be taken concurrently with Chem 181-0 laboratory course. Prerequisite: appropriate AP credit or permission of department by placement exam. | ||||
CHEM 172-0 | Advanced General Chemistry | Shiozaki | ||
CHEM 172-0 Advanced General ChemistryThermodynamics and equilibrium; chemical kinetics and mechanism; electrochemistry; electronic structure of the atom and quantum theory; advanced topics in chemical bonding; coordination compounds; solid-state chemistry; nuclear chemistry. Must be taken concurrently with the Chem 182-0 laboratory course. Prerequisites: Chem 171-0 and Chem 181-0 (C– or better in both courses); MATH 220. Students may not start the sequence in this course. All Chemistry course sequences start in Fall Quarter. | ||||
CHEM 181-0 | Advanced General Chemistry Laboratory 1 | Berns | ||
CHEM 181-0 Advanced General Chemistry Laboratory 1No description available. | ||||
CHEM 182-0 | Advanced General Chemistry Laboratory 2 | Berns | ||
CHEM 182-0 Advanced General Chemistry Laboratory 2No description available. | ||||
CHEM 201-0 | Chemistry of Nature and Culture Chemistry for the Nonscientist | Priest | ||
CHEM 201-0 Chemistry of Nature and Culture Chemistry for the NonscientistChemicals commonly encountered in everyday life. | ||||
CHEM 210-1 | Organic Chemistry | Trzupek | ||
CHEM 210-1 Organic ChemistryBasic concepts of structure, stereochemistry, and reactivity of organic compounds. The chemistry of hydrocarbons and alcohols. Prerequisite: Chem 103-0 and Chem 123-0 *or* Chem 172-0 and Chem 182-0 *or* Chem 152-0 and Chem 162-0 *or* Chem 132-0 and Chem 142-0 (C– or better in both courses), appropriate AP credit, or permission of department by placement exam. | ||||
CHEM 210-1 | Organic Chemistry | Priest | ||
CHEM 210-1 Organic ChemistryBasic concepts of structure, stereochemistry, and reactivity of organic compounds. The chemistry of hydrocarbons and alcohols. Prerequisite: Chem 103-0 and Chem 123-0 *or* Chem 172-0 and Chem 182-0 *or* Chem 152-0 and Chem 162-0 *or* Chem 132-0 and Chem 142-0 (C– or better in both courses), appropriate AP credit, or permission of department by placement exam. | ||||
CHEM 210-1 | Organic Chemistry | Dichtel | ||
CHEM 210-1 Organic ChemistryBasic concepts of structure, stereochemistry, and reactivity of organic compounds. The chemistry of hydrocarbons and alcohols. Prerequisite: Chem 103-0 and Chem 123-0 *or* Chem 172-0 and Chem 182-0 *or* Chem 152-0 and Chem 162-0 *or* Chem 132-0 and Chem 142-0 (C– or better in both courses), appropriate AP credit, or permission of department by placement exam. | ||||
CHEM 210-2 | Organic Chemistry | Priest | ||
CHEM 210-2 Organic ChemistryThe chemistry of aromatic, carbonyl, and nitrogen compounds; characterization of organic substances by chemical and spectral methods; reaction mechanisms. Must be taken concurrently with laboratory course Chem 230-2. No P/N registration. Prerequisite: Chem 210-1 (C– or better). | ||||
CHEM 210-2 | Organic Chemistry | Trzupek | ||
CHEM 210-2 Organic ChemistryThe chemistry of aromatic, carbonyl, and nitrogen compounds; characterization of organic substances by chemical and spectral methods; reaction mechanisms. Must be taken concurrently with laboratory course Chem 230-2. No P/N registration. Prerequisite: Chem 210-1 (C– or better). | ||||
CHEM 210-2 | Organic Chemistry | Kalow | ||
CHEM 210-2 Organic ChemistryThe chemistry of aromatic, carbonyl, and nitrogen compounds; characterization of organic substances by chemical and spectral methods; reaction mechanisms. Must be taken concurrently with laboratory course Chem 230-2. No P/N registration. Prerequisite: Chem 210-1 (C– or better). | ||||
CHEM 210-3 | Organic Chemistry | Trzupek | ||
CHEM 210-3 Organic ChemistryThe chemistry of polyfunctional compounds of biological and medicinal interest. Modern organic synthesis, bioorganic chemistry, and recent developments in organic chemistry. Must be taken concurrently with laboratory course Chem 230-3. No P/N registration. Prerequisite: Chem 210-2 and Chem 230-2 (C– or better in both courses). | ||||
CHEM 212-1 | Organic Chemistry | Thomson | ||
CHEM 212-1 Organic ChemistryPrimarily for chemistry majors and students in ISP. Similar to 210-1,2,3 except with laboratory only in the first and second quarters. Must be taken concurrently with laboratory courses Chem 232-1, 2. Prerequisites: Chem 103-0 and Chem 123-0 *or* Chem 172-0 and Chem 182-0 *or* Chem 152-0 and Chem 162-0 *or* Chem 132-0 and Chem 142-0 (C– or better in both courses), appropriate AP credit, enrollment in ISP, or permission of department by placement exam. | ||||
CHEM 212-2 | Organic Chemistry | Nguyen | ||
CHEM 212-2 Organic ChemistryPrimarily for chemistry majors and students in ISP. Similar to 210-1,2,3 except with laboratory only in the first and second quarters. Must be taken concurrently with laboratory courses Chem 232-1, 2. Prerequisites: Chem 103-0 and Chem 123-0 *or* Chem 172-0 and Chem 182-0 *or* Chem 152-0 and Chem 162-0 *or* Chem 132-0 and Chem 142-0 (C– or better in both courses), appropriate AP credit, enrollment in ISP, or permission of department by placement exam. | ||||
CHEM 212-3 | Organic Chemistry | Silverman | ||
CHEM 212-3 Organic ChemistryPrimarily for chemistry majors and students in ISP. Similar to 210-1,2,3 except with laboratory only in the first and second quarters. Must be taken concurrently with laboratory courses Chem 232-1, 2. Prerequisites: Chem 103-0 and Chem 123-0 *or* Chem 172-0 and Chem 182-0 *or* Chem 152-0 and Chem 162-0 *or* Chem 132-0 and Chem 142-0 (C– or better in both courses), appropriate AP credit, enrollment in ISP, or permission of department by placement exam. | ||||
CHEM 220-0 | Introductory Instrumental Analysis | Hupp/Staff | ||
CHEM 220-0 Introductory Instrumental AnalysisAn introduction to basic laboratory techniques in analytical chemistry and spectroscopy. Topics include infrared and UV-visible spectroscopy, gas and liquid chromatography, elemental and thermal analysis, simple X-ray diffraction, error analysis, and literature-searching techniques. Prerequisite: Chem 103-0 and Chem 123-0 *or* Chem 172-0 and Chem 182-0 *or* Chem 152-0 and Chem 162-0 *or* Chem 132-0 and Chem 142-0 *or* equivalent. | ||||
CHEM 230-2 | Organic Chemistry Lab | Nelson | ||
CHEM 230-2 Organic Chemistry LabNo description available. | ||||
CHEM 230-3 | Organic Chemistry Lab | Nelson | ||
CHEM 230-3 Organic Chemistry LabNo description available. | ||||
CHEM 232-1 | Organic Chemistry Lab | Nelson | ||
CHEM 232-1 Organic Chemistry LabNo description available. | ||||
CHEM 232-2 | Organic Chemistry Lab | Nelson | ||
CHEM 232-2 Organic Chemistry LabNo description available. | ||||
CHEM 302/402 | Principles of Inorganic Chemistry | Kanatzidis | ||
CHEM 302/402 Principles of Inorganic ChemistryTopics in advanced inorganic chemistry. Taught with 402. Prerequisite: 333 or consent of instructor. | ||||
CHEM 303/403 | Principles of Physical Chemistry | Shiozaki | ||
CHEM 303/403 Principles of Physical ChemistryAn overview of advanced topics in physical chemistry. Taught with 403. Prerequisite: 342-1,2,3; with consent of instructor | ||||
CHEM 305/405 | Chemistry of Life Processes | O'Halloran | ||
CHEM 305/405 Chemistry of Life ProcessesTopics in the chemistry and biochemistry of life processes. Taught with 405. Prerequisite: 210-3 and 230-3; or 212-2 and 232-2 and 1 biochemistry course; or consent of instructor. | ||||
CHEM 306/406 | Environmental Chemistry | Farha | ||
CHEM 306/406 Environmental ChemistryTopics in the physical chemistry of the environment. Taught with 406. Prerequisites: 210-3 and 230-3 or 212-3; MATH 234, 250; PHYSICS 135-1,2; or consent of instructor. | ||||
CHEM 307/407 | Materials and Nanochemistry | Stupp | ||
CHEM 307/407 Materials and NanochemistryIntroduction to frontier research at the interface of chemistry and materials science. Taught with 407. Prerequisite: 212-3 or 210-3 and 230-3. | ||||
CHEM 316/415 | Medicinal Chemistry: The Organic Chemistry of Drug Design and Action | Silverman | ||
CHEM 316/415 Medicinal Chemistry: The Organic Chemistry of Drug Design and ActionIntroduction to principles of drug design and mechanisms of drug action from a chemical viewpoint. Historical introduction, drug design and development, receptors, enzymes and enzyme inhibitors, DNA, drug metabolism, and prodrugs. Prerequisite: 210-3 and 230-3 or, 212-3, or consent of instructor. | ||||
CHEM 329/445 | Analytical Chemistry | Van Duyne | ||
CHEM 329/445 Analytical ChemistryPrinciples and applications of analytical methods, with emphasis on advanced separation science, dynamic electrochemistry, and advanced mass spectrometry. No P/N registration. Prerequisites: 342-1 or -2. | ||||
CHEM 333-0 | Inorganic Chemistry | Poeppelmeier | ||
CHEM 333-0 Inorganic ChemistryDescriptive chemistry of some important elements. Current concepts and models of chemical bonding. Prerequisites: 2 units of 200- or 300-level chemistry. | ||||
CHEM 342-1 | Thermodynamics | Hoffman | ||
CHEM 342-1 ThermodynamicsLaws of applications of thermodynamics. Thermochemistry, chemical potentials, solution thermodynamics, nonideal gases. Prerequisites: 103 and 123 or 172 and 182 (C or better); MATH 230; PHYSICS 135-1,2 (students may take PHYSICS 135-2 concurrently). | ||||
CHEM 342-2 | Quantum Mechanics and Spectroscopy | Geiger | ||
CHEM 342-2 Quantum Mechanics and SpectroscopyQuantum mechanics with emphasis on atomic and molecular electronic structure. Electronic, vibrational, rotational, and magnetic resonance spectroscopy. Prerequisites: MATH 230 (234 recommended also); PHYSICS 135-1,2. | ||||
CHEM 342-3 | Kinetics and Statistical Thermodynamics | Geiger | ||
CHEM 342-3 Kinetics and Statistical ThermodynamicsChemical kinetics, including experimental techniques and theories of rate processes. Statistical mechanics, including Boltzmann distribution, partition functions, and applications to thermodynamics. Prerequisites: 342-1,2. | ||||
CHEM 348-0 | Physical Chemistry for ISP | Hoffman/VanDuyne | ||
CHEM 348-0 Physical Chemistry for ISPGas laws and properties; kinetic theory; first, second, and third laws; phase equilibria; mixtures, phase diagrams, statistical thermodynamics, kinetics. Prerequisites: ISP enrollment; 172 and 182; MATH 281-1,2,3; or consent of department. | ||||
CHEM 350-1 | Advanced Laboratory 1 | Northrup/Nelson | ||
CHEM 350-1 Advanced Laboratory 1Advanced laboratory techniques in synthetic and analytical chemistry and spectroscopy: mass spectrometry, chromatography, NMR spectroscopy, and organic synthesis techniques. Prerequisites: 220 and 212-3 or equivalent. | ||||
CHEM 350-2 | Advanced Laboratory 2 | Northrup/Farha | ||
CHEM 350-2 Advanced Laboratory 2Advanced laboratory techniques in synthetic and analytical chemistry and spectroscopy, polymer characterization methods, electrochemistry, X-ray crystallography, atomic spectroscopy, and inorganic synthesis techniques. Prerequisites: 333 and 350-1 or equivalent; 342-2 co-requisite. | ||||
CHEM 350-3 | Advanced Laboratory 3 | Northrup | ||
CHEM 350-3 Advanced Laboratory 3Advanced laboratory techniques in synthetic and analytical chemistry and spectroscopy: infrared and Raman spectroscopy, electronic spectroscopy, fast kinetics, organic and inorganic synthesis techniques in a self-guided project. Prerequisites: 342-2 or equivalent and 350-2; 342-3 or 348 co-requisite. | ||||
CHEM 393-0 | Green Chemistry | Priest | ||
CHEM 393-0 Green ChemistryPractices of environmentally benign chemistry as applied to the chemical industry. Introduction to the concept and discipline of green chemistry; growth and expansion of the discipline in historical context from its origins in the early 1990s to the present. Prerequisite: 210-3 and 230-3 or 212-3 (C- or better). | ||||
CHEM 410-0 | Physical Organic Chemistry | Wasielewski | ||
CHEM 410-0 Physical Organic ChemistryThis course will focus on modern topics in physical organic chemistry, while emphasizing the relationship between structure and reactivity. Topics to be covered are molecular orbital theory, orbital symmetry and reactivity, stereoelectronic effects, transition state theory, electron transfer, free energy relationships, nucleophilic and electrophilic reactivity, kinetic isotope effects, and basic photochemistry. | ||||
CHEM 412-0 | Organic Reaction Mechanisms | Kalow | ||
CHEM 412-0 Organic Reaction MechanismsElucidation of organic and organometallic reaction mechanisms: experiment, theory, and selected case studies. | ||||
CHEM 413-1 | Organic Reactions | Scheidt | ||
CHEM 413-1 Organic ReactionsStrategies and tactics involved in complex target synthesis. Modern reaction classes as applied to chemical synthesis, coupled to in-depth discussion of the underlying key principles of synthesis design and execution, are covered in the class. Students will gain experience in problem solving, creative thinking, structural analysis and writing techniques. | ||||
CHEM 415-0 | Advanced Organic Chemistry | Gianneschi | ||
CHEM 415-0 Advanced Organic ChemistryTopic TBA | ||||
CHEM 415-0 | Advanced Organic Chemistry | Stoddart | ||
CHEM 415-0 Advanced Organic ChemistryTopic TBA | ||||
CHEM 416-0 | Practical Training in Chemical Biology Methods and Experimental Design | Kelleher | ||
CHEM 416-0 Practical Training in Chemical Biology Methods and Experimental DesignBy the end of this course you will expected to have obtained a general understanding of many commonly used measurement techniques available to augment research at Northwestern. It features two weeks of classroom-based instruction on experimental design and analysis; supplemented by NIH Rigor And Reproducibility Training Modules. This overview will be followed by a combination of lectures and labs addressing a broad range of analytical techniques and imaging methods. These lessons will then be applied to inquiry-based learning in Northwestern's advanced instrumentation cores. In addition to lecture, students are expected to devise two Mini-Research Projects and will work on one of these with senior staff to apply specific services and protocols utilizing instrumentation available within Research Cores and University Centers. Students will design specific experiments in selected areas of their interest, and learn new sample preparation methods and instrumentation within one of the following areas: mass spectrometry; proteomics, in vivo and molecular imaging, small molecule synthesis and purification; high-throughput screening, x-ray crystallography, and analysis of bioelements. Material generated in the class counts for course credit will be usable in research group settings. | ||||
CHEM 419/319 | Advanced Organic Synthesis - Concepts and Applications | Thomson | ||
CHEM 419/319 Advanced Organic Synthesis - Concepts and ApplicationsThe design of synthetic routes to natural products and other medicinally relevant organic compounds will be covered in detail. Retrosynthetic analysis, substructure keying, and pattern recognition, along with other methods for synthetic planning will be discussed within the context of specific case studies. Classic and modern organic reactions, including asymmetric synthesis and catalysis, will be introduced and their application in synthetic planning examined. Case studies will include the synthesis of terpenes, alkaloids, polyketides, steroids, proteins and pharmaceuticals. The end result should be that students are familiar with the important issues associated with synthesis and gain intimate knowledge of a wide variety of chemical reactions. Ultimately, when presented with a given molecule, students should be able to develop a reasonable synthesis plan based on firm ideas and reliable transformations. | ||||
CHEM 432-0 | X-Ray Crystallography | Malliakas/Stern | ||
CHEM 432-0 X-Ray CrystallographyThis class focuses on structure determination by X-Ray Crystallography. The course will include lectures on crystallographic theory and practice as well as hands-on experience with instrumentation and structure solution and refinement software. Students will be asked to provide single-crystal samples from their own research or from their research groups for in-class analysis | ||||
CHEM 433-0 | Structural Inorganic Chemistry | Marks | ||
CHEM 433-0 Structural Inorganic ChemistryChemical applications of group theory and the determination of inorganic and organic molecular and extended structures by modern physical techniques. | ||||
CHEM 434-0 | Inorganic Chemistry | Freedman | ||
CHEM 434-0 Inorganic ChemistryThis course will be focused on magnetism and electronic structure of transition metal complexes. By the end of the course students will learn how to acquire and interpret magnetic data for transition metal complexes. The primary focus of the course will be molecular species. | ||||
CHEM 435-0 | Advanced Inorganic Chemistry: Chemical Structure and Bonding | Harris | ||
CHEM 435-0 Advanced Inorganic Chemistry: Chemical Structure and BondingThis purpose of this course is to present a number of topics that highlight the influence of electronic structure in coordination compounds on determining molecular and solid-state structure, bonding, reactivity, and magnetic behavior. Of particular focus are topics not commonly covered in upper-division undergraduate inorganic courses, especially those relevant to areas of active chemical research. Much of the content and examples will be taken directly from the primary chemistry literature. The first approximately 60% of the course will be comprised of lectures, with the remainder involving short critical literature review student presentations. | ||||
CHEM 435-0 | Advanced Inorganic Chemistry | Kanatzidis | ||
CHEM 435-0 Advanced Inorganic ChemistryAdvanced Inorganic Chemistry: Solid State and Materials | ||||
CHEM 442-1 | Quantum Chemistry | Harel | ||
CHEM 442-1 Quantum Chemistry
**Review of relevant topics in mathematics will be provided in the first few of weekly exercises. | ||||
CHEM 442-2 | Quantum Chemistry | Schatz | ||
CHEM 442-2 Quantum ChemistryThis course covers time dependent quantum mechanics and its application to the interaction of radiation and matter, to scattering theory and to time-dependent spectroscopy. | ||||
CHEM 443-0 | Kinetics | Chen | ||
CHEM 443-0 KineticsThis course will be focused on a practical approach to chemical kinetics and dynamics. It begins with basic rate laws and moves to rate laws for complex reactions, temperature dependence of reaction rates, a discussion of potential energy surfaces for reaction, models for reactions in the gas phase and solution and a development of the theory of unimolecular reactions, and finally partition functions and transition state theory. If time allows we will also cover catalytic reactions. | ||||
CHEM 444-0 | Elementary Statistical Mechanics | Harel | ||
CHEM 444-0 Elementary Statistical MechanicsTopics: (1) Thermodynamics, Fundamentals (2) Foundations: Microcanonical, canonical, and generalized ensembles (3) Theory of Phase Transitions (4) Equilibrium and Stability (5) Non-interacting systems (6) Ising Model (7) Fluctuation Dissipation | ||||
CHEM 445-0 | Advanced Physical Chemistry: Modern Spectroscopy | Staff | ||
CHEM 445-0 Advanced Physical Chemistry: Modern SpectroscopyNo description available. | ||||
CHEM 445-0, colist as 435 | Advanced Inorganic Chemistry: Chemistry of Alternate Energy (co-listed as) Advanced Physical Chemistry: Chemistry of Alternate Energy | Hupp | ||
CHEM 445-0, colist as 435 Advanced Inorganic Chemistry: Chemistry of Alternate Energy (co-listed as) Advanced Physical Chemistry: Chemistry of Alternate EnergyThe course will cover fundamental aspects of light-to-electrical energy conversion, light-to-chemical energy conversion, molecular hydrogen as a potentially renewable fuel source, carbon dioxide capture and transformation, and related concepts, chiefly from a chemistry and materials perspective. Emphasis will be placed on promising emerging science and technology, including that associated with organic photovoltaics, solid-state dye cells, and photo-catalytic and electro-catalytic materials for water splitting. Depending on interest, other topics such as thermoelectrics, thermal-solar water splitting, biofuels, or redox flow batteries and other electrical energy storage technologies may be discussed. The course will be taught at the beginning-graduate-student/upper-level-undergraduate-student level. | ||||
CHEM 460-0 | Organic Chemistry Seminar | Thomson | Thomson | Silverman |
CHEM 460-0 Organic Chemistry SeminarNo description available. | ||||
Chem 461-0 | Physical Chemistry Seminar | Schatz | ||
Chem 461-0 Physical Chemistry SeminarNo description available. | ||||
CHEM 461-0 | Physical Chemistry Seminar | Weiss | Van Duyne | |
CHEM 461-0 Physical Chemistry SeminarNo description available. | ||||
CHEM 463-0 | Inorganic Chemistry Seminar | Kanatazidis | Poeppelmeier | O'Halloran |
CHEM 463-0 Inorganic Chemistry SeminarNo description available. | ||||
CHEM 519-0 | Responsible Conduct of Research Training | TBA | ||
CHEM 519-0 Responsible Conduct of Research TrainingNo description available. | ||||
CHEM 570-0 | Chemistry Colloquium | Stair | Stair | Stair |
CHEM 570-0 Chemistry ColloquiumNo description available. |