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Course Criteria
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3.00 Credits
Introduces general principles of material structure and properties, including chemical and physical bonding, crystal structure, lattices, energy levels, and materials synthesis and chemistry. Introduces the fundamental structure and properties of polymer, solid state and composite materials. Includes a significant laboratory component.
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3.00 Credits
Introduces mechanical, thermal, electrical, optical, magnetic and biological properties of materials. Considers polymer, solid-state, and composite materials and discusses engineering of material properties via structure, composition, and processing. PREREQ: MSEG608.
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3.00 Credits
Study of the micromechanical and thermomechanical response of composite materials. Execution and assessment of experiments conducted to investigate strength and stiffness characteristics of composite materials.
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3.00 Credits
Cover the fundamental theoretical and experimental aspects of vibrational spectroscopy including normal modes of vibration and conditions for scattering, absorption and emission. Experimental methods discussed will include: FT-IR, 2D analysis methods, Raman scattering, neutron scattering, tunneling spectroscopies and AFM-IR spectroscopy. RESTRICTIONS: Students must have an undergraduate degree in science or engineering in progress.
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3.00 Credits
Fundamental and engineering aspects of metal, semiconductor, and oxide surfaces; their structure and defects, characterization, electronic properties, adsorption and reaction kinetics and thermodynamics. Applications to catalysis, microelectronics, and environment sensitive behavior. PREREQ: CHEG332 and CHEM444. RESTRICTIONS: Open to seniors and graduate students only.
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1.00 Credits
Provides mechanisms to overcome cultural barriers existing between university and industrial cultures. Topics include leadership vs. management, professional and cultural ethics, individual responsibility vs. teamwork, and networking and mentorship in accomplishing career goals. Includes guest speakers from local industries, technical writing and oral communication exercises.
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3.00 Credits
Basic theories and in-depth practical aspects of scanning electron microscopy, transmission electron microscopy, elemental analysis, and sample preparation techniques. Hands-on oriented. For some lab assignments, students can be accommodated to prepare and analyze real samples from their own research.
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3.00 Credits
Focus on critical financial, legal, scientific and engineering issues confronted during initial planning stages of a start-up enterprise. Students work in teams to develop a business plan for a real world business product offering.
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3.00 Credits
Design and construct functional molecules and materials through simple and efficient reaction schemes. Topics include: pKa/pH/solvent polarity, efficient chemical reactions (e.g., 'click' chemistry), dynamic covalent chemistry, protection and deprotection schemes, peptide synthesis and conjugation, one-pot reaction schemes, convergent versus divergent syntheses, biomolecular labeling, synthesis and modification of polymer networks/hydrogels, and purification.
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3.00 Credits
This course focuses on the fundamentals and practical consideration of the myriad techniques that are used to characterize electronic materials. It includes the theoretical underpinnings of the techniques and discusses applicability and limitations.
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