Class Restriction And Registration Summary


CBE 40725 - Section 01: Principles of Molecular Eng (CRN 29415)
Long Title: Principles of Molecular Engineering

Course Description:
The objective of this course, intended for both upper level undergraduate and graduate students, is to illustrate the emerging field of molecular engineering. By fusing concepts from chemistry and materials science, molecular engineering seeks rational design of chemical building blocks for organized systems and materials. Students will gain a fundamental perspective for how non-covalent interactions and designed molecular motifs can dictate the structure, function, and properties of resulting engineered systems. This will include an appreciation for the role on intermolecular forces in governing the behavior of these molecules as they interact with each other and with their environment (typically a solvent). Additionally, illustrative examples will point to the power of strategies rooted in principles of molecular engineering to create highly controlled and functional materials. topics will include: non-covalent interactions, molecular design, thermodynamic driving forces, solvent effects, molecular self-assembly, supramolecular chemistry, molecular & materials characterization techniques, and applications of molecular engineering for diverse uses in energy, medicine, computing, formulation science, industrial applications, and food sciences.

Associated Term: Spring Semester 2017
Campus: Main
Credits: 3
Grade Mode: Standard Letter
Course may not be repeated

Must have the following Classifications:
Senior (04)
Must be enrolled in one of the following Levels:
Employee Non-Degree (EM) ,  Graduate Architecture (GA) ,  Graduate Non-Degree (GD) ,  Graduate (GR) ,  St. Mary's College (SM) ,  Undergraduate Non-Degree (UD) ,  Undergraduate (UG)
Must be enrolled in one of the following Campuses:
Main (M)

Course Attributes:
ZTST - Final exam

Registration Availability (Overflow: Off )
  Maximum Actual Remaining
TOTAL 33 8 25

Crosslist Information
Class Information Maximum Actual Remaining
CBE  40725 01, CRN 29415  (Primary) 33 8 25
CBE  60725 01, CRN 29416   7 0 7
Total 40 8 32