Chemistry Course Descriptions
CHEM
5314 Advanced Physical Chemistry (3 semester hours) Modern
concepts from the three pillars of physical chemistry: quantum mechanics,
thermodynamics/ statistical mechanics, and kinetics. Prerequisite: CHEM 3322 or equivalent. (3-0)
Y
CHEM
5331 (MSEN 5331) Advanced Organic Chemistry I (3 semester hours)
Modern concepts of bonding and structure in covalent compounds. Static and dynamic stereochemistry and
methods for study. Relationships between
structure and reactivity. Prerequisite:
CHEM 2325 or equivalent. (3-0) Y
CHEM
5333 (MSEN 5333) Advanced Organic Chemistry II (3
semester hours) Application of the principles introduced in CHEM 5331,
emphasizing their use in correlating the large body of synthetic/preparative
organic chemistry. Prerequisite: CHEM/MSEN 5331. (3-0) R
CHEM
5340 (MSEN 5340) Advanced Polymer Science and Engineering (3
semester hours) Polymer structure-property relations, Linear and nonlinear
viscoelasticity. Dynamic mechanical analysis, time-temperature superposition,
creep and stress relaxation. Mechanical models for prediction of polymer
deformation, rubber elasticity, environmental effects on polymer deformation,
instrumentation for prediction of long term properties. (3-0) R
CHEM
5341 (MSEN 5341) Advanced Inorganic Chemistry I (3
semester hours) Physical inorganic chemistry addressing topics in structure and
bonding, symmetry, acids and bases, coordination chemistry and spectroscopy.
Prerequisite: CHEM 3341, or consent of instructor. (3-0) Y
CHEM
5343 Advanced Inorganic Chemistry II (3 semester hours) Builds on
CHEM 5341 to explore the synthesis and reactivity of inorganic/organometallic
molecules. Practical applications will
be demonstrated by discussing industrial processes catalyzed by metal complexes. Prerequisite: CHEM 5341. (3-0) R
CHEM
5355 (MSEN 5355) Analytical Techniques I (3 semester hours)
Study of fundamental analytical techniques, including optical spectroscopic
techniques, mass spectrometry, and microscopic and surface analysis methods. (3-0)
Y
CHEM
5356 (MSEN 5356) Analytical Techniques II (3 semester hours)
Study of chromatography (GC, LC, CZE), statistical methods (standard tests and
ANOVA), chemical problem solving, and modern bio/analytical techniques such as
biochips, microfluidics, and MALDI-MS.
Prerequisite: CHEM 5355 or consent or instructor. (3-0) R
CHEM
5357 Process Analytical Chemistry (3 semester hours) An
introduction to process analytical chemistry as practiced in the chemical
process and other industries. Includes
process control, instrumental techniques, sample and conditioning systems,
project integration, and chemometrics.
Prerequisite: CHEM 5355 or consent of instructor. (3-0) R
CHEM
5V84 Special Topics in Chemistry/M.A.T. (1-9 semester hours) Various
special topics in chemistry of interest to teachers will be discussed. (May be
repeated for credit.) (May not be counted as credit toward the M.S. or Ph.D.
degrees.) ([1-9]-0) R
CHEM
5V87 Independent Study in Chemistry (1-9 semester hours) In
conjunction with a member of the Chemistry faculty, the student will develop a
paper or project which emphasizes the ways in which chemical knowledge is
confirmed and extended or which leads to improved instruction in chemistry.
(May not be counted as credit toward the M.S. or Ph.D. degrees.) May be
repeated for credit (9 hours maximum). ([1-9]-0) R
CHEM
6100 Chemistry Department Seminar (1 semester hour) A weekly
seminar that features accounts of current research by outstanding investigators
in chemistry and related scientific areas. Course not eligible for audit.
Prerequisite: graduate standing in chemistry. (May be repeated for credit.) (1
-0) S
CHEM
6317 Industrial Chemistry (3 semester hours) Survey of chemical
industry including commodities, chemical processes, scale-up and process
development, environmental concerns, patents.
Study of chemical engineering principles. (3-0) R
CHEM
6361 Physical Biochemistry (3 semester hours) Protein structure,
fundamental metabolism, structures and properties of macromolecules,
interactions with electromagnetic radiation, thermodynamics of macromolecular
solutions, transport processes, and other topics. Prerequisite: Consent of instructor. (3-0) R
CHEM
6372 Materials Science (3 semester hours) Relationship between
the properties and behavior of materials and their internal structure. Treatment of the mechanical, thermal and
electrical properties of crystalline and amorphous solids including metals,
ceramics, synthetic polymers and composites.
Prerequisite: Consent of instructor. (3-0) R
CHEM
6383 Computational Chemistry (3 semester hours) The
application of computer techniques to the understanding of molecular structure
and dynamics: force field, semi-empirical, ab initio, and molecular dynamics
techniques. Information retrieval from large structural databases and use of
this information. Prerequisite: Consent
of instructor. (3-0) R
CHEM
6389 Scientific Literature and Communication Skills (3
semester hours) Acquaints students with techniques for searching the scientific
literature using hard copy and electronic approaches. Introduces students to important steps in
creating and improving technical communications in both written and oral
formats. (3-0) Y
CHEM
6V19 Special Topics in Physical Chemistry (1-9 semester hours)
Subject matter will vary and the course may be repeated for credit. Examples of topics include spectroscopy,
quantum mechanics, computational chemistry, and surface chemistry. Prerequisite: CHEM 5314 or consent of
instructor. ([1-9]-0) R
CHEM
6V39 Special Topics in Organic Chemistry (1-9 semester hours)
Subject matter will vary and the course may be repeated for credit. Examples of topics include organic
photochemistry, organometallic chemistry, homogeneous and heterogeneous
catalysis, solid state, polymer chemistry, and advanced NMR techniques. Prerequisite: CHEM 5331 or consent of
instructor. ([1-9]-0) R
CHEM
6V49 Special Topics in Inorganic Chemistry (1-9 semester hours)
Subject matter will vary and the course may be repeated for credit. Examples of topics include physical methods
of inorganic chemistry, and bioinorganic chemistry. Prerequisite: CHEM 5341 or consent of
instructor. ([1-9]-0) R
CHEM
6V59 Special Topics in Analytical Chemistry (1-9 semester hours)
Subject matter will vary. Examples of
topics include NMR, X-ray crystallography.
May be repeated to a maximum of 9 hours.
Prerequisite: CHEM 5355 or consent of instructor. ([1-9]-0) R
CHEM
6V69 Special Topics in Biochemistry (1-9 semester hours)
Subject matter will vary. May be
repeated for credit (9 hours maximum).
Prerequisite: Consent of instructor. ([1-9]-0) R
CHEM
6V79 Special Topics in Materials Chemistry (1-9 semester hours)
Subject matter will vary. Examples of
topics include polymers, membrane technology, zeolites, nanoscience and
technology. May be repeated to a maximum
of 9 hours. Prerequisite: Consent of
instructor. ([1-9]-0) R
CHEM
6V84 Special Topics in Applied Chemistry (1-9 semester hours)
Subject matter will vary and may be repeated for credit to a maximum of 9
hours. Prerequisite: Consent of instructor. ([1-9]-0) R
CHEM
8398 Thesis (3 semester hours) May be repeated for credit. (3-0) S
CHEM
8399 Dissertation (3 semester hours) May be repeated for credit. (3-0) S
CHEM
8981 Research Practicum (9 semester hours) Offers training of
students in the direct solution of chemical problems through use of the
literature; analysis; and the design, construction and performance of
experiments. Method of instruction will be
primarily individual direction, questioning, and feedback by the responsible
faculty member and/or industrial scientist. Intended for Ph.D. students. May be repeated for credit. (9-0) S
CHEM
8V19 Dissertation (1-9 semester hours) May be repeated for credit. [(1-9)-0] S
CHEM
8V91 Research in Chemistry (2-9 semester hours) May be repeated
for credit. ([2-9]-0) S