CHEM 332

Spring 2026 All Classes

All Classes

Credit: 4 hours.

Continuation of CHEM 232 focuses on advanced organic chemistry synthesis, mechanisms, and history, and its applications to peptide and protein sciences, carbohydrate chemistry, and DNA structure, repair and enzymatic processes.

This course should not be taken by students who have completed CHEM 236. Credit is not given toward graduation for: both CHEM 332 and CHEM 436. Prerequisite: CHEM 232.

CHEM 332 class schedule data for spring 2026
CRN Type Section Time Day Location Instructor Section Details
60621
Lecture
AL1
9:30AM -10:50AM
TR
112 Gregory Hall
Pillai, S
Part of Term:
1
Date Range:
01/20/26-05/06/26
Section Info:
Students must register for both an "AL" in-person Lecture and an "AQ" in-person discussion." A continuation of CHEM 232, this course focuses on advanced reaction mechanisms and the chemistry of complex organic molecules. Students will engage with practical applications in organic synthesis throughout the course. Topics include the reactions of conjugated compounds under kinetic and thermodynamic conditions, the exploration of pericyclic reactions, and the role of heteroatoms in aromaticity, as well as electrophilic aromatic substitution. The course also covers reactions involving carbonyl compounds, amines, and carboxylic acid derivatives. Additionally, students will be introduced to biochemically relevant molecules such as carbohydrates, lipids, proteins, and nucleic acids. Materials Required Textbook: Organic Chemistry by Janice Gorzynski Smith 7th Edition. Online Homework: ALEXS
60622
Lecture
AL2
12:30PM -1:50PM
TR
100 Gregory Hall
Pillai, S
Part of Term:
1
Date Range:
01/20/26-05/06/26
Section Info:
Students must register for both an "AL" in-person Lecture and an "AQ" in-person discussion." A continuation of CHEM 232, this course focuses on advanced reaction mechanisms and the chemistry of complex organic molecules. Students will engage with practical applications in organic synthesis throughout the course. Topics include the reactions of conjugated compounds under kinetic and thermodynamic conditions, the exploration of pericyclic reactions, and the role of heteroatoms in aromaticity, as well as electrophilic aromatic substitution. The course also covers reactions involving carbonyl compounds, amines, and carboxylic acid derivatives. Additionally, students will be introduced to biochemically relevant molecules such as carbohydrates, lipids, proteins, and nucleic acids. Materials Required Textbook: Organic Chemistry by Janice Gorzynski Smith 7th Edition. Online Homework: ALEXS Students must register for both an "AL" in-person Lecture and an "AQ" in-person discussion."
63786
Discussion/
Recitation
AQ0
4:00PM -4:50PM
W
157 Noyes Laboratory
Mudireddy, A
Pillai, S
Part of Term:
1
Date Range:
01/20/26-05/06/26
63781
Discussion/
Recitation
AQ1
9:00AM -9:50AM
M
157 Noyes Laboratory
Pillai, S
Rana, M
Part of Term:
1
Date Range:
01/20/26-05/06/26
63782
Discussion/
Recitation
AQ2
2:00PM -2:50PM
W
157 Noyes Laboratory
Drury, P
Pillai, S
Part of Term:
1
Date Range:
01/20/26-05/06/26
63784
Discussion/
Recitation
AQ3
2:00PM -2:50PM
M
157 Noyes Laboratory
Drury, P
Pillai, S
Part of Term:
1
Date Range:
01/20/26-05/06/26
64047
Discussion/
Recitation
AQ4
9:00AM -9:50AM
W
157 Noyes Laboratory
Pillai, S
Rana, M
Part of Term:
1
Date Range:
01/20/26-05/06/26
64048
Discussion/
Recitation
AQ6
11:00AM -11:50AM
W
165 Noyes Laboratory
Cini, F
Pillai, S
Part of Term:
1
Date Range:
01/20/26-05/06/26
63787
Discussion/
Recitation
AQ7
4:00PM -4:50PM
M
157 Noyes Laboratory
Mudireddy, A
Pillai, S
Part of Term:
1
Date Range:
01/20/26-05/06/26
63785
Discussion/
Recitation
AQ9
11:00AM -11:50AM
M
165 Noyes Laboratory
Cini, F
Pillai, S
Part of Term:
1
Date Range:
01/20/26-05/06/26
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