| Title | Instructors | Location | Time | Description | Cross listings | Fulfills | Registration notes | Syllabus | Syllabus URL | ||
|---|---|---|---|---|---|---|---|---|---|---|---|
| CHEM 022-301 | Structural Biology | Jeffery G. Saven | CHEM B13 | TR 08:30 AM-09:30 AM | This course will explain in non-mathematical terms how essentially all biological properties are determined by the microscopic chemical properties of proteins. It will also explain how research results, especially those of structural biology, are presented to its various audiences. | Permission Needed From Instructor Freshman Seminar Natural Science & Math Sector |
https://pennintouchdaemon.apps.upenn.edu/pennInTouchProdDaemon/jsp/fast.do?webService=syllabus&term=2022A&course=CHEM022301 | ||||
| CHEM 053-001 | General Chemistry Laboratory I | Jenine Maeyer | CHEM 102 | W 03:30 PM-04:30 PM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. Lab fee $150. | College Quantitative Data Analysis Req. | Registration also required for Laboratory (see below) | ||||
| CHEM 053-002 | General Chemistry Laboratory I | Jenine Maeyer | DRLB A5 | T 03:30 PM-04:30 PM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. Lab fee $150. | Registration also required for Laboratory (see below) | |||||
| CHEM 053-150 | Gen Chem Lab I | Jenine Maeyer | T 05:15 PM-08:15 PM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. Lab fee $150. | Registration also required for Lecture (see below) | ||||||
| CHEM 053-160 | Gen Chem Lab I | Jenine Maeyer | W 01:45 PM-04:45 PM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. Lab fee $150. | Registration also required for Lecture (see below) | ||||||
| CHEM 053-170 | Gen Chem Lab I | Jenine Maeyer | W 05:15 PM-08:15 PM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. Lab fee $150. | College Quantitative Data Analysis Req. | Registration also required for Lecture (see below) | |||||
| CHEM 053-210 | Gen Chem Lab I | Jenine Maeyer | R 10:15 AM-01:15 PM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. Lab fee $150. | Registration also required for Lecture (see below) | ||||||
| CHEM 053-230 | Gen Chem Lab I | Jenine Maeyer | R 01:45 PM-04:45 PM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. Lab fee $150. | Permission Needed From Department Registration also required for Lecture (see below) |
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| CHEM 053-240 | Gen Chem Lab I | Jenine Maeyer | CANCELED | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. Lab fee $150. | Registration also required for Lecture (see below) | ||||||
| CHEM 053-250 | Gen Chem Lab I | Jenine Maeyer | R 05:15 PM-08:15 PM | A general laboratory course covering aspects of qualitative and quantitative analysis, determination of chemical and physical properties, and chemical synthesis. Lab fee $150. | Registration also required for Lecture (see below) | ||||||
| CHEM 054-001 | General Chemistry Laboratory II | Jenine Maeyer | CHEM 102 | M 03:30 PM-04:30 PM | Continuation of CHEM 053. Lab fee $150 | College Quantitative Data Analysis Req. | Registration also required for Laboratory (see below) | ||||
| CHEM 054-002 | General Chemistry Laboratory II | Jenine Maeyer | CHEM 102 | M 05:15 PM-06:15 PM | Continuation of CHEM 053. Lab fee $150 | College Quantitative Data Analysis Req. | Registration also required for Laboratory (see below) | ||||
| CHEM 054-110 | Gen Chem Lab II | Jenine Maeyer | T 10:15 AM-01:15 PM | Continuation of CHEM 053. Lab fee $150 | College Quantitative Data Analysis Req. | Registration also required for Lecture (see below) | |||||
| CHEM 054-120 | Gen Chem Lab II | Jenine Maeyer | T 12:00 PM-03:00 PM | Continuation of CHEM 053. Lab fee $150 | College Quantitative Data Analysis Req. | Registration also required for Lecture (see below) | |||||
| CHEM 054-130 | Gen Chem Lab II | Jenine Maeyer | T 01:45 PM-04:45 PM | Continuation of CHEM 053. Lab fee $150 | College Quantitative Data Analysis Req. | Registration also required for Lecture (see below) | |||||
| CHEM 054-140 | Gen Chem Lab II | Jenine Maeyer | T 03:30 PM-06:30 PM | Continuation of CHEM 053. Lab fee $150 | College Quantitative Data Analysis Req. | Registration also required for Lecture (see below) | |||||
| CHEM 054-150 | Gen Chem Lab II | Jenine Maeyer | T 05:15 PM-08:15 PM | Continuation of CHEM 053. Lab fee $150 | College Quantitative Data Analysis Req. | Registration also required for Lecture (see below) | |||||
| CHEM 054-160 | Gen Chem Lab II | Jenine Maeyer | W 01:45 PM-04:45 PM | Continuation of CHEM 053. Lab fee $150 | College Quantitative Data Analysis Req. | Registration also required for Lecture (see below) | |||||
| CHEM 054-170 | Gen Chem Lab II | Jenine Maeyer | W 05:15 PM-08:15 PM | Continuation of CHEM 053. Lab fee $150 | College Quantitative Data Analysis Req. | Registration also required for Lecture (see below) | |||||
| CHEM 054-210 | Gen Chem Lab II | Jenine Maeyer | R 10:15 AM-01:15 PM | Continuation of CHEM 053. Lab fee $150 | Registration also required for Lecture (see below) | ||||||
| CHEM 054-230 | Gen Chem Lab II | Jenine Maeyer | R 01:45 PM-04:45 PM | Continuation of CHEM 053. Lab fee $150 | Registration also required for Lecture (see below) | ||||||
| CHEM 054-250 | Gen Chem Lab II | Jenine Maeyer | R 05:15 PM-08:15 PM | Continuation of CHEM 053. Lab fee $150 | Registration also required for Lecture (see below) | ||||||
| CHEM 054-601 | Gen Chem Lab II (Lec) | Jenine Maeyer | CHEM 109 | R 05:15 PM-06:15 PM | Continuation of CHEM 053. Lab fee $150 | College Quantitative Data Analysis Req. | Only Open To LPS Pb Pre-Health Students Course Must Be Taken For A Grade Registration also required for Laboratory (see below) |
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| CHEM 054-602 | Gen Chem Lab II | Wonil Jung | CHEM 109 | R 07:00 PM-10:00 PM | Continuation of CHEM 053. Lab fee $150 | College Quantitative Data Analysis Req. | Only Open To LPS Pb Pre-Health Students Course Must Be Taken For A Grade Registration also required for Lecture (see below) |
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| CHEM 101-001 | General Chemistry I | Anthony Cirri | CHEM 102 | TR 01:45 PM-03:15 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 100. Prerequisite: Students with credit for CHEM 100 may not enroll in CHEM 101. Credit is not awarded for both CHEM 101 and 100. | Physical World Sector | Registration also required for Recitation (see below) | ||||
| CHEM 101-201 | General Chemistry I | Rebecca Nguyen Hopkins | VAGL 2000 | R 12:00 PM-01:30 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 100. Prerequisite: Students with credit for CHEM 100 may not enroll in CHEM 101. Credit is not awarded for both CHEM 101 and 100. | Registration also required for Lecture (see below) | |||||
| CHEM 101-202 | General Chemistry I | Rebecca Nguyen Hopkins | VAGL 2000 | R 03:30 PM-05:00 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 100. Prerequisite: Students with credit for CHEM 100 may not enroll in CHEM 101. Credit is not awarded for both CHEM 101 and 100. | Registration also required for Lecture (see below) | |||||
| CHEM 101-203 | General Chemistry I | Yutian Bao | VAGL 2000 | F 01:45 PM-03:15 PM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 100. Prerequisite: Students with credit for CHEM 100 may not enroll in CHEM 101. Credit is not awarded for both CHEM 101 and 100. | Registration also required for Lecture (see below) | |||||
| CHEM 101-204 | General Chemistry I | Yutian Bao | CHEM B13 | F 08:30 AM-10:00 AM | Basic concepts and principles of chemistry and their applications in chemistry and closely-related fields. The first term emphasizes the understanding of chemical reactions through atomic and molecular structure. This is a university level course, treating the material in sufficient depth so that students can solve chemical problems and can understand the principles involved in their solution. It includes an introduction to condensed matter. This course is suitable for majors or non-majors and is recommended to satisfy either major or pre-professional requirements for general chemistry. This course is presented for students with high school chemistry and calculus. Students with a lesser background than this should take CHEM 100. Prerequisite: Students with credit for CHEM 100 may not enroll in CHEM 101. Credit is not awarded for both CHEM 101 and 100. | Registration also required for Lecture (see below) | |||||
| CHEM 102-001 | General Chemistry II | Jonathan Fagan | CHEM 102 | MW 10:15 AM-11:45 AM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Physical World Sector | Registration also required for Recitation (see below) | ||||
| CHEM 102-002 | General Chemistry II | Thomas E Mallouk | CHEM 102 | MWF 12:00 PM-01:00 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Physical World Sector | Registration also required for Recitation (see below) | https://pennintouchdaemon.apps.upenn.edu/pennInTouchProdDaemon/jsp/fast.do?webService=syllabus&term=2022A&course=CHEM102002 | |||
| CHEM 102-003 | General Chemistry II | Thomas E Mallouk | LRSM AUD | MWF 01:45 PM-02:45 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Physical World Sector | Registration also required for Recitation (see below) | https://pennintouchdaemon.apps.upenn.edu/pennInTouchProdDaemon/jsp/fast.do?webService=syllabus&term=2022A&course=CHEM102003 | |||
| CHEM 102-004 | General Chemistry II | Sarah Wolf Sean P. Holleran |
DRLB A4 | MWF 12:00 PM-01:00 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Physical World Sector | Engineering Students Only Registration also required for Recitation (see below) |
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| CHEM 102-005 | General Chemistry II | Sarah Wolf Sean P. Holleran |
DRLB A4 | MWF 01:45 PM-02:45 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Physical World Sector | Engineering Students Only Registration also required for Recitation (see below) |
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| CHEM 102-007 | General Chemistry II | Anthony Cirri | CHEM 514 | TR 03:30 PM-05:30 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Physical World Sector | Permission Needed From Department Registration also required for Recitation (see below) |
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| CHEM 102-201 | General Chemistry II | Christopher John Ostaszewski Shihan Qin |
MEYH B4 | F 01:45 PM-03:15 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | |||||
| CHEM 102-202 | General Chemistry II | Shihan Qin | TOWN 319 | R 03:30 PM-05:00 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | |||||
| CHEM 102-203 | General Chemistry II | Christopher John Ostaszewski | VAGL 2000 | F 03:30 PM-05:00 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | |||||
| CHEM 102-220 | General Chemistry II | Charles H Cameron Srikar Yelamarthy |
DRLB 4C6 | R 08:30 AM-10:00 AM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | |||||
| CHEM 102-221 | General Chemistry II | Eric C Yang Alok Kumar |
DRLB 2C8 | R 05:15 PM-06:45 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | |||||
| CHEM 102-222 | General Chemistry II | Brenden D Burke Abdelwahab N Babiker |
CHEM 514 | F 01:45 PM-03:15 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | |||||
| CHEM 102-230 | General Chemistry II | Namrita Kumar Xinchun Wu |
VAGL 2000 | R 05:15 PM-06:45 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | |||||
| CHEM 102-231 | General Chemistry II | Xinchun Wu Alok Kumar |
DRLB 4C6 | F 08:30 AM-10:00 AM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | |||||
| CHEM 102-232 | General Chemistry II | Tyler D Yannuzzi Abigail D Cragin |
DRLB 3C4 | R 03:30 PM-05:00 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | |||||
| CHEM 102-240 | General Chemistry II | CHEM 109 | R 12:00 PM-01:00 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | ||||||
| CHEM 102-241 | General Chemistry II | CHEM 109 | R 03:30 PM-04:30 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | ||||||
| CHEM 102-242 | General Chemistry II | CHEM 109 | F 01:45 PM-02:45 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | ||||||
| CHEM 102-250 | General Chemistry II | CHEM 109 | R 12:00 PM-01:00 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | ||||||
| CHEM 102-251 | General Chemistry II | CHEM 109 | R 03:30 PM-04:30 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Registration also required for Lecture (see below) | ||||||
| CHEM 102-252 | General Chemistry II | CANCELED | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Permission Needed From Department Registration also required for Lecture (see below) |
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| CHEM 102-270 | General Chemistry II | Shannon Ford | CHEM B13 | F 01:45 PM-02:45 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Permission Needed From Department Registration also required for Lecture (see below) |
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| CHEM 102-601 | General Chemistry II | Sarah Wolf | VAGL 2000 | T 05:15 PM-08:15 PM | Continuation of Chemistry 101. The second term stresses the thermodynamic approach to chemical reactions, electrochemical processes, and reaction rates and mechanisms. It includes special topics in chemistry. | Physical World Sector | Only Open To LPS Pb Pre-Health Students Course Must Be Taken For A Grade |
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| CHEM 116-001 | Honors Chemistry II | Zahra Fakhraai | CHEM B13 | MW 03:30 PM-05:00 PM | An advanced course for students who have had very strong background in Chemistry in High School (AP, IB, or equivalent). Advanced material from the general chemistry curriculum will be covered in the context topics selected from current research areas. A continuation of Honors Chemistry I, Honors Chemistry II will focus on topics in biochemistry and biophysical chemistry relating to thermodynamics,equilibrium, kinetics, and electrochemistry. Prerequisite: Advanced High School Chemistry (AP or equivalent). | Physical World Sector | Permission Needed From Department Registration also required for Recitation (see below) |
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| CHEM 116-201 | Honors Chemistry II | Chu-Hsien Tsai | CHEM B13 | F 12:00 PM-01:00 PM | An advanced course for students who have had very strong background in Chemistry in High School (AP, IB, or equivalent). Advanced material from the general chemistry curriculum will be covered in the context topics selected from current research areas. A continuation of Honors Chemistry I, Honors Chemistry II will focus on topics in biochemistry and biophysical chemistry relating to thermodynamics,equilibrium, kinetics, and electrochemistry. Prerequisite: Advanced High School Chemistry (AP or equivalent). | Permission Needed From Department Registration also required for Lecture (see below) |
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| CHEM 116-202 | Honors Chemistry II | CANCELED | An advanced course for students who have had very strong background in Chemistry in High School (AP, IB, or equivalent). Advanced material from the general chemistry curriculum will be covered in the context topics selected from current research areas. A continuation of Honors Chemistry I, Honors Chemistry II will focus on topics in biochemistry and biophysical chemistry relating to thermodynamics,equilibrium, kinetics, and electrochemistry. Prerequisite: Advanced High School Chemistry (AP or equivalent). | Permission Needed From Department Registration also required for Lecture (see below) |
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| CHEM 222-001 | Physical Chemistry II | Marsha Isack Lester | MCNB 286-7 | MWF 10:15 AM-11:15 AM | Continuation of Physical Chemistry I. Principles and applications of thermodynamics, and a molecular-based understanding of macroscopic properties. | Registration also required for Recitation (see below) | https://pennintouchdaemon.apps.upenn.edu/pennInTouchProdDaemon/jsp/fast.do?webService=syllabus&term=2022A&course=CHEM222001 | ||||
| CHEM 222-201 | Physical Chemistry II | Yujie Qian | CHEM B13 | R 12:00 PM-01:00 PM | Continuation of Physical Chemistry I. Principles and applications of thermodynamics, and a molecular-based understanding of macroscopic properties. | Registration also required for Lecture (see below) | |||||
| CHEM 222-202 | Physical Chemistry II | Meijun Zou | DRLB 3C8 | F 01:45 PM-02:45 PM | Continuation of Physical Chemistry I. Principles and applications of thermodynamics, and a molecular-based understanding of macroscopic properties. | Registration also required for Lecture (see below) | |||||
| CHEM 222-203 | Physical Chemistry II | Yujie Qian | CHEM 119 | F 08:30 AM-09:30 AM | Continuation of Physical Chemistry I. Principles and applications of thermodynamics, and a molecular-based understanding of macroscopic properties. | Registration also required for Lecture (see below) | |||||
| CHEM 223-001 | Experimental Physical Chemistry I | Anthony Cirri Tobias Baumgart |
CHEM 514 | F 03:30 PM-05:00 PM | Important methods, skills, and apparatus used for the acquisition and interpretation of quantitative information about chemical systems will be discussed in principle and used in the laboratory. Lab fee $300. | Registration also required for Laboratory (see below) | https://pennintouchdaemon.apps.upenn.edu/pennInTouchProdDaemon/jsp/fast.do?webService=syllabus&term=2022A&course=CHEM223001 | ||||
| CHEM 223-101 | Experimental Phys Chem I | Jichen Feng | MW 01:45 PM-05:45 PM | Important methods, skills, and apparatus used for the acquisition and interpretation of quantitative information about chemical systems will be discussed in principle and used in the laboratory. Lab fee $300. | Registration also required for Lecture (see below) | ||||||
| CHEM 223-102 | Experimental Phys Chem I | Kelly Margaret Kopera | TR 01:45 PM-05:45 PM | Important methods, skills, and apparatus used for the acquisition and interpretation of quantitative information about chemical systems will be discussed in principle and used in the laboratory. Lab fee $300. | Registration also required for Lecture (see below) | ||||||
| CHEM 241-001 | Organic Chemistry I | Marisa Kozlowski | CHEM 102 | MWF 01:45 PM-02:45 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | Registration also required for Recitation (see below) | https://pennintouchdaemon.apps.upenn.edu/pennInTouchProdDaemon/jsp/fast.do?webService=syllabus&term=2022A&course=CHEM241001 | ||||
| CHEM 241-201 | Principles of Organic Chemistry | Cassandra Duyen Vu | CHEM 514 | R 12:00 PM-01:00 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | Registration also required for Lecture (see below) | |||||
| CHEM 241-202 | Principles of Organic Chemistry | Marisa Kozlowski | DRLB 2C6 | R 03:30 PM-04:30 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | Registration also required for Lecture (see below) | |||||
| CHEM 241-203 | Principles of Organic Chemistry | Cassandra Duyen Vu | DRLB 2C4 | R 05:15 PM-06:15 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | Registration also required for Lecture (see below) | |||||
| CHEM 241-204 | Principles of Organic Chemistry | Marisa Kozlowski | CHEM 109 | W 03:30 PM-04:30 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | Registration also required for Lecture (see below) | |||||
| CHEM 241-205 | Principles of Organic Chemistry | Marisa Kozlowski | CHEM 119 | W 03:30 PM-04:30 PM | Fundamental course in organic chemistry based upon the modern concepts of structure and mechanism of reactions. | Registration also required for Lecture (see below) | |||||
| CHEM 242-002 | Organic Chemistry II | Virgil Percec | COLL 200 | MWF 01:45 PM-02:45 PM | Continuation of CHEM 241. | Registration also required for Recitation (see below) | |||||
| CHEM 242-003 | Organic Chemistry II | David M Chenoweth | CHEM 102 | TR 10:15 AM-11:45 AM | Continuation of CHEM 241. | Registration also required for Recitation (see below) | |||||
| CHEM 242-220 | Principles of Organic Chemistry II | CHEM 119 | M 05:15 PM-06:15 PM | Continuation of CHEM 241. | Registration also required for Lecture (see below) | ||||||
| CHEM 242-221 | Principles of Organic Chemistry II | MEYH B2 | R 03:30 PM-04:30 PM | Continuation of CHEM 241. | Registration also required for Lecture (see below) | ||||||
| CHEM 242-222 | Principles of Organic Chemistry II | CHEM 109 | M 05:15 PM-06:15 PM | Continuation of CHEM 241. | Registration also required for Lecture (see below) | ||||||
| CHEM 242-223 | Principles of Organic Chemistry II | CHEM 109 | F 03:30 PM-04:30 PM | Continuation of CHEM 241. | Registration also required for Lecture (see below) | ||||||
| CHEM 242-224 | Principles of Organic Chemistry II | CHEM 119 | T 05:15 PM-06:15 PM | Continuation of CHEM 241. | Registration also required for Lecture (see below) | ||||||
| CHEM 242-230 | Principles of Organic Chemistry II | CHEM 119 | W 05:15 PM-06:15 PM | Continuation of CHEM 241. | Registration also required for Lecture (see below) | ||||||
| CHEM 242-231 | Principles of Organic Chemistry II | CHEM 119 | W 12:00 PM-01:00 PM | Continuation of CHEM 241. | Registration also required for Lecture (see below) | ||||||
| CHEM 242-232 | Principles of Organic Chemistry II | CHEM 119 | F 12:00 PM-01:00 PM | Continuation of CHEM 241. | Registration also required for Lecture (see below) | ||||||
| CHEM 242-233 | Principles of Organic Chemistry II | CHEM 514 | M 05:15 PM-06:15 PM | Continuation of CHEM 241. | Registration also required for Lecture (see below) | ||||||
| CHEM 242-234 | Principles of Organic Chemistry II | CHEM 514 | F 12:00 PM-01:00 PM | Continuation of CHEM 241. | Registration also required for Lecture (see below) | ||||||
| CHEM 242-235 | Principles of Organic Chemistry II | CHEM B13 | M 05:15 PM-06:15 PM | Continuation of CHEM 241. | Registration also required for Lecture (see below) | ||||||
| CHEM 242-601 | Organic Chemistry II | Simon Tong | DRLB A8 | T 07:00 PM-10:00 PM | Continuation of CHEM 241. | Only Open To LPS Pb Pre-Health Students Course Must Be Taken For A Grade |
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| CHEM 244-001 | Experimental Organic Chemistry Lab I | Alyssa Bohen | A basic laboratory course where modern chromatographic, instrumental, and spectroscopic techniques are applied to experimental organic chemistry. Course must be taken concurrently with Organic Chemistry I. | Registration also required for Laboratory (see below) | |||||||
| CHEM 244-110 | Organic Chemistry Lab I | Alyssa Bohen | T 01:45 PM-04:45 PM | A basic laboratory course where modern chromatographic, instrumental, and spectroscopic techniques are applied to experimental organic chemistry. Course must be taken concurrently with Organic Chemistry I. | Registration also required for Lecture (see below) | ||||||
| CHEM 244-120 | Organic Chemistry Lab I | Bethann Flint | F 01:45 PM-04:45 PM | A basic laboratory course where modern chromatographic, instrumental, and spectroscopic techniques are applied to experimental organic chemistry. Course must be taken concurrently with Organic Chemistry I. | Registration also required for Lecture (see below) | ||||||
| CHEM 244-130 | Organic Chemistry Lab I | Alyssa Bohen | W 08:30 AM-11:30 AM | A basic laboratory course where modern chromatographic, instrumental, and spectroscopic techniques are applied to experimental organic chemistry. Course must be taken concurrently with Organic Chemistry I. | Registration also required for Lecture (see below) | ||||||
| CHEM 244-140 | Organic Chemistry Lab I | Alyssa Bohen | T 05:15 PM-08:15 PM | A basic laboratory course where modern chromatographic, instrumental, and spectroscopic techniques are applied to experimental organic chemistry. Course must be taken concurrently with Organic Chemistry I. | Registration also required for Lecture (see below) | ||||||
| CHEM 248-601 | Experimental Organic Chemistry B | Simon Tong | CHEM B13 | R 05:15 PM-06:15 PM | Only Open To LPS Pb Pre-Health Students Course Must Be Taken For A Grade Registration also required for Laboratory (see below) |
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| CHEM 248-602 | Expermntl Organic Chem B | Simon Tong | R 06:15 PM-10:15 PM | Only Open To LPS Pb Pre-Health Students Course Must Be Taken For A Grade Registration also required for Lecture (see below) |
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| CHEM 249-001 | Experimental Organic Chemistry Laboratory II | Alyssa Bohen | A continuation of CHEM 244, where the techniques introduced and practiced in Experimental Organic Chemistry I are applied to a variety of organic reactions and multistep syntheses. Course must be taken concurrently with Organic Chemistry II lecture. | Registration also required for Laboratory (see below) | |||||||
| CHEM 249-110 | Organic Chemistry Lab II | Alyssa Bohen | M 08:00 AM-12:00 PM | A continuation of CHEM 244, where the techniques introduced and practiced in Experimental Organic Chemistry I are applied to a variety of organic reactions and multistep syntheses. Course must be taken concurrently with Organic Chemistry II lecture. | Registration also required for Lecture (see below) | ||||||
| CHEM 249-120 | Organic Chemistry Lab II | Alyssa Bohen | F 08:30 AM-12:30 PM | A continuation of CHEM 244, where the techniques introduced and practiced in Experimental Organic Chemistry I are applied to a variety of organic reactions and multistep syntheses. Course must be taken concurrently with Organic Chemistry II lecture. | Registration also required for Lecture (see below) | ||||||
| CHEM 249-130 | Organic Chemistry Lab II | Alyssa Bohen | M 12:00 PM-04:00 PM | A continuation of CHEM 244, where the techniques introduced and practiced in Experimental Organic Chemistry I are applied to a variety of organic reactions and multistep syntheses. Course must be taken concurrently with Organic Chemistry II lecture. | Registration also required for Lecture (see below) | ||||||
| CHEM 249-140 | Organic Chemistry Lab II | Alyssa Bohen | T 08:30 AM-12:30 PM | A continuation of CHEM 244, where the techniques introduced and practiced in Experimental Organic Chemistry I are applied to a variety of organic reactions and multistep syntheses. Course must be taken concurrently with Organic Chemistry II lecture. | Registration also required for Lecture (see below) | ||||||
| CHEM 249-150 | Organic Chemistry Lab II | Alyssa Bohen | W 12:00 PM-04:00 PM | A continuation of CHEM 244, where the techniques introduced and practiced in Experimental Organic Chemistry I are applied to a variety of organic reactions and multistep syntheses. Course must be taken concurrently with Organic Chemistry II lecture. | Registration also required for Lecture (see below) | ||||||
| CHEM 249-160 | Organic Chemistry Lab II | Alyssa Bohen | R 01:45 PM-05:45 PM | A continuation of CHEM 244, where the techniques introduced and practiced in Experimental Organic Chemistry I are applied to a variety of organic reactions and multistep syntheses. Course must be taken concurrently with Organic Chemistry II lecture. | Registration also required for Lecture (see below) | ||||||
| CHEM 249-170 | Organic Chemistry Lab II | Alyssa Bohen | W 05:15 PM-09:15 PM | A continuation of CHEM 244, where the techniques introduced and practiced in Experimental Organic Chemistry I are applied to a variety of organic reactions and multistep syntheses. Course must be taken concurrently with Organic Chemistry II lecture. | Registration also required for Lecture (see below) | ||||||
| CHEM 249-180 | Organic Chemistry Lab II | Alyssa Bohen | M 05:15 PM-09:15 PM | A continuation of CHEM 244, where the techniques introduced and practiced in Experimental Organic Chemistry I are applied to a variety of organic reactions and multistep syntheses. Course must be taken concurrently with Organic Chemistry II lecture. | Registration also required for Lecture (see below) | ||||||
| CHEM 249-190 | Organic Chemistry Lab II | Alyssa Bohen | F 01:45 PM-05:45 PM | A continuation of CHEM 244, where the techniques introduced and practiced in Experimental Organic Chemistry I are applied to a variety of organic reactions and multistep syntheses. Course must be taken concurrently with Organic Chemistry II lecture. | Registration also required for Lecture (see below) | ||||||
| CHEM 251-001 | Princ Biological Chem | Megan L Matthews Ernest J Petersson |
CHEM 102 | TR 12:00 PM-01:30 PM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 242 or CHEM 243. | Registration also required for Recitation (see below) | https://pennintouchdaemon.apps.upenn.edu/pennInTouchProdDaemon/jsp/fast.do?webService=syllabus&term=2022A&course=CHEM251001 | ||||
| CHEM 251-201 | Principles of Biological Chemistry | CHEM 514 | W 08:30 AM-09:30 AM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 242 or CHEM 243. | Registration also required for Lecture (see below) | ||||||
| CHEM 251-202 | Principles of Biological Chemistry | TOWN 305 | W 08:30 AM-09:30 AM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 242 or CHEM 243. | Registration also required for Lecture (see below) | ||||||
| CHEM 251-203 | Principles of Biological Chemistry | TOWN 307 | W 08:30 AM-09:30 AM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 242 or CHEM 243. | Registration also required for Lecture (see below) | ||||||
| CHEM 251-204 | Principles of Biological Chemistry | DRLB 4E9 | W 08:30 AM-09:30 AM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 242 or CHEM 243. | Registration also required for Lecture (see below) | ||||||
| CHEM 251-205 | Principles of Biological Chemistry | CHEM 109 | W 05:15 PM-06:15 PM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 242 or CHEM 243. | Registration also required for Lecture (see below) | ||||||
| CHEM 251-206 | Principles of Biological Chemistry | CHEM 514 | W 05:15 PM-06:15 PM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 242 or CHEM 243. | Registration also required for Lecture (see below) | ||||||
| CHEM 251-207 | Principles of Biological Chemistry | CHEM B13 | W 05:15 PM-06:15 PM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 242 or CHEM 243. | Registration also required for Lecture (see below) | ||||||
| CHEM 251-208 | Principles of Biological Chemistry | VAGL 2000 | W 05:15 PM-06:15 PM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 242 or CHEM 243. | Registration also required for Lecture (see below) | ||||||
| CHEM 251-209 | Principles of Biological Chemistry | DRLB 2C6 | W 08:30 AM-09:30 AM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 242 or CHEM 243. | Registration also required for Lecture (see below) | ||||||
| CHEM 251-210 | Principles of Biological Chemistry | DRLB 2C8 | W 08:30 AM-09:30 AM | Fundamentals of biological chemistry, including the structure of biological macromolecules and their mechanism of action, intermediary metabolism, and the chemical basis of information transfer. Course can be taken concurrently with CHEM 242 or CHEM 243. | Registration also required for Lecture (see below) | ||||||
| CHEM 452-001 | Biological Chemistry II | Ernest J Petersson | CHEM 102 | TR 08:30 AM-10:00 AM | Physical and chemical description of macromolecular information transfer. Gene organization, replication, recombination, regulation and expression. (Formerly, CHEM 450-II). | Permission Needed From Department | |||||
| CHEM 495-401 | High Throughput Discovery: A Multidisciplinary Approach To Cancer. | Jeffrey Michael Field David Schultz Thomas De Raedt |
T 05:15 PM-06:15 PM | The newly developed massively parallel technologies have enabled the simultaneous analysis of many pathways. There are several large scale international efforts to probe the genetics and drug sensitivity of cancer cell lines. However, there are some rare cancers that have not been analyzed in depth. One of these rare cancers is malignant peripheral nerve sheet tumors (MPNST). MPNST, although a rare cancer, are common in patients with neurofibromatosis type. In the course, students will take part in a high throughput discovery effort in two phases. Phase 1 is a training phase, which will consist of quantitative profiling the sensitivity of MPNST cell lines to a library of >120 common and experimental cancer drugs. These will be conducted in the UPenn High Throughput Screening Core. (http://www.med.upenn.edu/cores/High-ThroughputScreeningCore.shtml). While we call this a training phase, the data from this will be subject to rigorous quality control for eventual publication and development of a public database for rare tumors. Phase 2 is an independent research project. Examples of projects include, but are not limited to: Combinatorial screens (synthetic lethal); siRNA screens; novel compound screens; determining mechanisms of cell death; developing tools for data analysis and database development. During phase 2, students will also modify compounds of interest using the Penn Chemistry: Upenn/Merck High Throughput Experimentation Laboratory (https://www.chem.upenn.edu/content/penn-chemistry-upennmerck-high-throughput-e xperimentation-laboratory), and then retest them for activity to determine structure activity relationships. We will sponsor phase 2 projects relevant to neurofibromatosis. However, in phase two students can also research other areas if they develop sponsorships from professors. We expect the course to be a hypothesis engine that generates ideas for further research. | PHRM495401 | Permission Needed From Instructor | |||||
| CHEM 524-001 | Quantum Chemistry II | CANCELED | Approximate methods in quantum theory and applications to molecular systems. Topics may include: electronic structure, configuration interaction, DFT, TD-DFT and response theory, electronic dynamics, semiclassical dynamics, vibrational density of states. | Permission Needed From Department | |||||||
| CHEM 525-001 | Molecular Spectroscopy | Jessica M Anna | CHEM 119 | MW 10:15 AM-11:45 AM | This course is broken into two sections: (1) optics, and (2) theory of spectroscopy including the discussion of techniques and examples. In the first section you will be introduced to both linear and nonlinear optics, through thinkling about how to design optical components in the laboratory setting. the second part of the course is a more traditional spectroscopy course, where different spectroscopies in the visible and infrared spectral region will be discussed. This part of the course will focus on understanding what we can learn from using specroscopy and what sort of dynamical processes can be observed with different spectroscopic techniques. Topics to be covered include, but are not limited to: optics, time-dependent perturbation theory, lineshapes, density matrix, group theory, selection rules. | Permission Needed From Department | |||||
| CHEM 526-001 | Chemical Dynamics | Abraham Nitzan | VAGL 4000 VAGL 4000 |
M 12:00 PM-01:30 PM F 10:15 AM-11:45 AM |
Theoretical and experimental aspects of important rate processes in chemistry. | Permission Needed From Department | |||||
| CHEM 541-001 | Physical Organic Chem | Marisa Kozlowski | CHEM 109 | MF 10:15 AM-11:45 AM | This course a high level overview of methods for the study of organic, organometallic, and inorganic reaction mechanism. Chem 441 (Mechanisms) or Chem 564 (Organometallics) is required. The course will survey thermodynamic and kinetic measurements used in understanding chemical reactions. Topics include kinetic measurements and interpretation, Arrhenius theory, Eyring theory, kinetic isotope effects, Hammett analyses, and electronic structure calculations. Articles discussing these techniques in delineating the reaction mechanisms for problems of current interest will be analyzed. The focus will be on experiments that can be accomplished with readily available analytical tools (NMR, IR, UV, GC, HPLC) and how an understanding of mechanism can be used to optimize reaction yields and selectivities. | Permission Needed From Department | |||||
| CHEM 558-401 | Biomolec Spec and Micro | Anna Elizabeth Rhoades | CHEM 109 | MW 08:30 AM-10:00 AM | Chem 558 covers basic fluorescence spectroscopy and microscopy, as well as advanced topics such as single molecule spectroscopy and non-linear and super-resolution microscopies. There are weekly homework assignments that include problems based on the lectures as well as journal club style reports on by pairs of students on papers relevant to the course material. | Permission Needed From Department | |||||
| CHEM 567-401 | Bio-Inorganic Chemistry | CANCELED | The course covers selected topics in bioinorganic chemistry; special emphasis is placed on dioxygen chemistry and electron transfer processes. Course topics include: (i) oxygen uptake and utilization; (ii) diatomic oxygen trans port; (iii) diatomic and monoatomic oxygen incorporation into substrates; (iv) metalloenzyme-catalyzed C-C bond formation; (v) the metallobiochemistry of DNA; (vi) metal-sulfide proteins; (vii) manganese-containing metalloproteins; (viii) Photosystem II: light-driven electron transfer and the biological water-splitting reaction; (ix) biological electron transfer; (x) electron transfer theory; (xi) mechanisms of energy storage and release; and (xii) long-distance electron transfer reactions. | BMB567401 | Permission Needed From Department | ||||||
| CHEM 601-002 | Chemical Information:Inorganic Chemistry | Judith N. Currano | VANP 114 | W 12:00 PM-01:30 PM | This course examines the structure and organization of the chemical literature and introduces techniques of searching this literature, focusing on the logic and thought processes necessary for effective information retrieval. Each technique is illustrated using information tools available at the University of Pennsylvania, and we take an "under the hood" look at the organization and functionality of each tool introduced. Students should choose a course section based on their preferred area of chemistry research: organic, inorganic, biological, and physical chemistry; all four sections are taught at a level appropriate for graduate students and advanced undergraduates. Topics vary by section, but all students learn the basics of subject, author, structure, and reaction searching, and a unit on ethics in publication and scholarly communication completes the course. | Permission Needed From Department | https://pennintouchdaemon.apps.upenn.edu/pennInTouchProdDaemon/jsp/fast.do?webService=syllabus&term=2022A&course=CHEM601002 | ||||
| CHEM 601-003 | Chemical Information:Organic Chemistry | Judith N. Currano | VANP 114 | F 12:00 PM-01:30 PM | This course examines the structure and organization of the chemical literature and introduces techniques of searching this literature, focusing on the logic and thought processes necessary for effective information retrieval. Each technique is illustrated using information tools available at the University of Pennsylvania, and we take an "under the hood" look at the organization and functionality of each tool introduced. Students should choose a course section based on their preferred area of chemistry research: organic, inorganic, biological, and physical chemistry; all four sections are taught at a level appropriate for graduate students and advanced undergraduates. Topics vary by section, but all students learn the basics of subject, author, structure, and reaction searching, and a unit on ethics in publication and scholarly communication completes the course. | Permission Needed From Department | https://pennintouchdaemon.apps.upenn.edu/pennInTouchProdDaemon/jsp/fast.do?webService=syllabus&term=2022A&course=CHEM601003 | ||||
| CHEM 708-001 | Topics in Photochemistry | David M Chenoweth | CHEM 109 | T 05:15 PM-08:15 PM | This course, for graduate students, encompasses topics in fundamental and applied photochemistry and photophysics from the fields of organic chemistry and chemical biology. Key topics and concepts will include basic photophysics, interactions of light with matter, UV-Vis absorption and emission spectroscopy, energy transfer, kinetics/dynamics, Jablonski diagrams, electron transfer, organic photochemistry, and applications in organic chemistry and chemical biology. These topics and concepts will be covered in the context of frontier applications including synthetic chemistry organic photochemistry, molecular imaging, and optogenetic tools among others. | Permission Needed From Department | |||||
| CHEM 741-001 | Spectroscopy | Charles William Ross Jun Gu |
CHEM 119 | MW 08:30 AM-10:00 AM | The course will cover Nuclear Magnetic Resonance (NMR) theory at a level appropriate for graduate students in Organic Chemistry. It will also provide hands-on practical training in the correct use of high-field NMR spectrometers. Organic Spectroscopic methods for the determination of structure using NMR will be stressed. Permission of instructor required. | Permission Needed From Department | |||||
| CHEM 742-001 | Medicinal Chemistry | Donna Huryn | CHEM 109 | MF 10:15 AM-11:45 AM | This course focuses on concepts and strategies in medicinal chemistry, and how it is applied to modern drug discovery and development. Topics include the drug discovery process, drug targets (GRCR?s, enzymes, channels etc.), physical chemistry of molecular interactions between drug and target, drug design, methods for hit and lead identification, lead optimization, chemical biology, natural products chemistry and combinatorial and diversity oriented synthesis. This course is geared to upper level undergraduate students in chemistry or biochemistry, and first year chemistry graduate students. A strong understanding of organic chemistry is required. | Permission Needed From Department | |||||
| CHEM 745-001 | Total Synthesis | Amos Brittain Smith | CHEM 119 | TR 03:30 PM-05:00 PM | The focus of this course comprise the development of two synthetic strategies to access architecturally complex natural products of biological significance exploiting innovative chemistry. Lectures towards this end are given. As a project, each studnet is given a different complex natural product and expected at the end of the course to deveop two strategies, one based on asymmetric induction to provide the absolute stereochemical structure, the second where the absolute stereochemistry derives from commercially available starting materials. | Permission Needed From Department | |||||
| CHEM 746-001 | Intermediate Org Chem | Christopher B Kelly | CANCELED | This course will include a review of basic reaction mechanisms, stereoelectronic effects, functional groups and acid-base chemistry. The course will emphasize the writing of mechanisms using the curved-arrow notation and organic reactions. Bonding and electronic structure theories and more involved mechanisms will be discussed. Students are expected to have a good working knowledge of reactions, functional groups, stereochemistry and mechanisms from undergraduate organic chemistry. Students will be expected to review basic concepts in Organic Chemistry and spectroscopy. The course will include lectures and recitations, and students are expected to attend and participate. | Permission Needed From Department Registration also required for Recitation (see below) |
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| CHEM 746-201 | Intermediate Organic Chemistry | CANCELED | This course will include a review of basic reaction mechanisms, stereoelectronic effects, functional groups and acid-base chemistry. The course will emphasize the writing of mechanisms using the curved-arrow notation and organic reactions. Bonding and electronic structure theories and more involved mechanisms will be discussed. Students are expected to have a good working knowledge of reactions, functional groups, stereochemistry and mechanisms from undergraduate organic chemistry. Students will be expected to review basic concepts in Organic Chemistry and spectroscopy. The course will include lectures and recitations, and students are expected to attend and participate. | Permission Needed From Department Registration also required for Lecture (see below) |
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| CHEM 751-401 | Chemical Biology | Megan L Matthews | CHEM 109 | TR 10:15 AM-11:45 AM | This course focuses on current topics in Chemical Biology, particularly experiments in which 1) chemical synthesis enables one to probe or control biological systems, or 2) manipulation of biological systems facilitates novel chemical syntheses. The course is broadly divided into two sections, one dealing with the study of individual proteins and nucleic acids, and one dealing with complex cellular systems. As the goal of the course is to familiarize students with innovative recent experimental approaches and to stimulate them to conceive of their own new methodology, students will be responsible for delivering presentations on topics selected from the literature, designing experiments to address currently unsolved problems in Chemical Biology (in take-home examinations), and generating several novel research proposal ideas, one of which will be elaborated into a full proposal. | BMB751401 | Permission Needed From Department | https://pennintouchdaemon.apps.upenn.edu/pennInTouchProdDaemon/jsp/fast.do?webService=syllabus&term=2022A&course=CHEM751401 | |||
| CHEM 762-001 | X Ray I | Patrick J Carroll | CHEM B13 | MW 08:30 AM-10:00 AM | An introduction to the theory and practice of structure determination by X-ray crystallography. Topics discussed include point group and space group symmetry, structure factor theory, data collection methods and a survey of solution methods. The course culminates with a series of real-world structure determinations worked through in-class using the XSeed program package. | Permission Needed From Department | |||||
| CHEM 763-001 | X-Ray II | Michael R Gau | CHEM 109 | MW 08:30 AM-10:00 AM | Continuation of X-ray I course, CHEM 741 | Permission Needed From Department | https://pennintouchdaemon.apps.upenn.edu/pennInTouchProdDaemon/jsp/fast.do?webService=syllabus&term=2022A&course=CHEM763001 | ||||
| CHEM 764-001 | Materials Chemistry | Christopher B. Murray | CHEM 119 | TR 10:15 AM-11:45 AM | This course will provide an introduction of structure-property relationships in materials chemistry on length scales from atomic dimension up to the microscale and then draw on examples of Chemical design for "Energy and Environmental Sustainability." We will introduce the "12 Principles of Green Chemistry" and "12 Principles of Green Engineering" as a guide to modern materials chemistry design and follow a trajectory that proceeds with increasing length scales of ordering in the solid state. We will introduce techniques of x-ray, neutron, electron, and ion beam based scattering, real space imaging and spectroscopies and use these to explore non-crystalline materials (amorphous, glasses, and time permitting quasicrystals and aperiodic systems) and crystalline solids. Studies will proceed from atomic scales through nanoscale, mesoscale, and micro-scale discussing the emergence of band structure and delcocalized electronic and optical properties that emerge due to the finite scale of ordering and influence of the surface. Select examples will be drawn from advances in materials for in solar energy utilization with photochemistry and photoelectrochemistry and materials for photovoltaic and enabling advances electrochemical energy conversion and storage. | Permission Needed From Department | |||||
| CHEM 765-001 | F-Block Elements | Eric J Schelter | CHEM 514 | MW 10:15 AM-11:45 AM | The course encompasses the descriptive chemistry, and topics related to, the f-block including the rare earth metals and actinides. Coverage includes coordination chemistry and periodic trends, electronic structure and magnetism, and modern applications of f-block chemistry including lanthanide ions as spectroscopic probes, separations chemistry, materials chemistry and applications, organo-f-element chemistry, the chemistry of the actinides and transactinides, and reactivity/catalysis with f-block compounds. | Permission Needed From Department | |||||
| CHEM 995-038 | Dissertation | Christopher B. Murray | Chemistry Dissertation Status | ||||||||
| CHEM 995-060 | Dissertation | Igor Bargatin | Chemistry Dissertation Status |
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