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CHEM 518: Research Experience II

1.00 - 6.00 Credits

Duquesne University

Continuation of CH 516. The student selects a second faculty mentor and research project. The student's progress and activity are evaluated by a three-member Research Experience II Committee. At the conclusion of this rotation, the student selects his/her dissertation mentor and dissertation topic.

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CHEM 521: Research Rotation I

6.00 Credits

Duquesne University

First year students select a faculty advisor and pursue a research project in the laboratory of the faculty mentor. The students progress and activity are monitored by a three-member faculty advisory committee. This course provides the student with the opportunity to apply the skills and techniques mastered in applied courses to a research problem.

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CHEM 522: Research Rotation II

6.00 Credits

Duquesne University

Continuation of Ch 521. Students select a second faculty mentor, advisory committee, and research project. At the conclusion of this rotation, the student selects his/her dissertation mentor and dissertation topic.

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CHEM 527: Biochm & Biophy Char of Biomol

3.00 Credits

Duquesne University

This course will provide a detailed description of the biochemical and biophysical methods that are used to characterize macromolecules. This course is designed to complement CHEM 508 and provide the students with an in-depth appreciation of the tools available to characterize the structure and function of macromolecules. Areas that will be covered include membrane biophysics, mass spectrometry, the interaction of matter with light, receptor pharmacology, chrystallographic methods, electron microscopy, and computational biology.

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CHEM 534: Applied Basic NMR Techs

3.00 Credits

Duquesne University

Course will cover aspects of 1H, 2 H, 13 C, 31 P, and 19 F, diamagnetic and paramagnetic NMR, beginning with the basic experiment and proceeding through standard two-dimensional experiments. Considerable time will be spent on discussions of the interpretation of spectra including chemical shifts and spin-spin coupling. Hands on exercises will include sample preparation, pulse sequences, and instrument function.

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CHEM 539: Scient Presentation

1.00 Credits

Duquesne University

Introduces the organizations and presentation of scientific research both orally and in writing. Students will give brief seminars and prepare outlines and introductions to scientific papers.

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CHEM 540: Visual & Simulation Mthds

3.00 Credits

Duquesne University

Course will focus on the use of modern workstation and software to address computational problems in chemistry. Topics will include platform choice, operation systems, and system requirements. Additional topics will survey software for modeling the behavior of chemical systems with emphasis on hands on experiments. Problems addressed will include topics in condensed-phase matter, molecular dynamics, spectroscopy prediction, energy minimization, and biological systems.

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CHEM 542: Applied Stat & Data Analy

1.00 Credits

Duquesne University

This course provides essential instruction in basic statistics and data analysis. Topics typically include descriptive statistics (standard deviation, confidence intervals, random variables, distributions); tests of significance (t-tests, ANOVA); regression analysis (linear, weighted linear, nonlinear); and multivariate analysis. As time allows, more advanced chemometric techniques are explored.

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CHEM 546: Physical Organic

3.00 Credits

Duquesne University

The class is intended for upper level undergraduates and beginning graduate students. It will include a detailed study of molecular structure and thermo-dynamics including molecular recognition, acid-base chemistry, and stereo- chemistry. Reactivity, kinetics, and mechanisms of reactions will be presented. Also included will be the theory and applications of electronic structure.

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CHEM 548: Applied Separations

2.00 Credits

Duquesne University

Covers practical aspects of analytical and preparative separations, with emphasis on chromatography (gas and liquid, including open column and high-performance modes) and electrophoresis (capillary and gel). Intended for all experimental chemists. Theory will be covered as necessary, but emphasis will be primarily on laboratory problem solving.

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