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MSEG 816: Systems Biology of Cells in Engineered Environments
3.00 Credits
University of Delaware
Provides a technical review of systems biology approaches including genomics, transcriptomics, proteomics, metabolomics, and bioinformatics as well as applications in tissue engineering, stem cell differentiation, and drug delivery. Intended for PhD students in interdisciplinary life science and engineering programs.
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MSEG 816 - Systems Biology of Cells in Engineered Environments
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MSEG 817: Composite Materials
3.00 Credits
University of Delaware
Introduction, thermoelastic behavior of laminated composites, statistical strength theories of continuous-fiber composites, short-fiber composites, hybrid composites, two-dimensional textile structural composites, three-dimensional textile structural composites, flexible composites, and nonlinear elastic finite deformation of flexible composites. PREREQ: MEEG610.
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MSEG 817 - Composite Materials
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MSEG 825: electronic Structure of molecules & Solids
3.00 Credits
University of Delaware
Focuses on understanding molecular orbital theory, linear combination of atomic orbitals for simple molecules and polymers, tight binding and k.p. descriptions of semiconductors. Includes elements of group theory, spin-orbit coupling, effects of strain on band structures, and band alignments at interfaces. PREREQ: MSEG640.
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MSEG 825 - electronic Structure of molecules & Solids
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MSEG 832: Principles of Polymerization
3.00 Credits
University of Delaware
Provides background in the theoretical and synthetic considerations of polymer synthesis. Topics include theoretical descriptions of molecular weight distributions, step growth polymerizations, chain growth polymerizations, living polymerizations, as well as chemical strategies for the production of various polymers. Specialized topics in the current polymer chemistry literature may also be discussed.
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MSEG 832 - Principles of Polymerization
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MSEG 835: Principles to Polymer Physics
3.00 Credits
University of Delaware
Chain statistics, thermodynamics, and kinetics are discussed in the context of modern polymer physics characterization techniques, such as dynamic and static light scattering and elastic/inelastic neutron scattering.
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MSEG 835 - Principles to Polymer Physics
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MSEG 841: Solid State Materials I
3.00 Credits
University of Delaware
Structure and properties of solid-state materials, including inorganic atomic structure and lattices, calculation of three-dimensional energy bands and band gaps, calculation of density of states, derivation of physical properties from the density of states, electronic properties of materials, models for approximating band structure and phonons. PREREQ: MSEG640.
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MSEG 841 - Solid State Materials I
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MSEG 842: Solid State Materials II
3.00 Credits
University of Delaware
Properties of solid-state materials, including magnetic properties, optical properties, electrical properties, scattering and tunneling transport. Introduction to semiconductor devices and low-dimensional structures. PREREQ: MSEG841
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MSEG 842 - Solid State Materials II
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MSEG 860: Epitaxial Growth and Band Engineering
3.00 Credits
University of Delaware
Fundamentals and recent developments in the growth of epitaxial films of electronic/optical materials and devices. Topics include vacuum technology, growth thermodynamics, heterojunction physics, materials characterization, and practical considerations. Focus on molecular beam epitaxy, but discuss complementary techniques.
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MSEG 860 - Epitaxial Growth and Band Engineering
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MSEG 866: Special Problem
1.00 - 12.00 Credits
University of Delaware
No course description available.
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MSEG 866 - Special Problem
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MSEG 867: SEMINAR
1.00 - 12.00 Credits
University of Delaware
No course description available.
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MSEG 867 - SEMINAR
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