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ChE 130: Biomolecular Engineering Laboratory
9.00 Credits
California Institute of Technology
Design, construction, and characterization of engineered biological systems that will be implemented in bacteria, yeast, and cell-free systems. Research problems will fall into the general areas of biomolecular engineering and synthetic biology. Emphasis will be on projects that apply rational and evolutionary design strategies toward engineering biological systems that exhibit dynamic, logical, or programmed behaviors. Instructors: Tirrell, Vicic.
Prerequisite:
ChE 63 ab, ChE 101 (may be taken concurrently) or instructor’s permission.
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ChE 130 - Biomolecular Engineering Laboratory
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ChE 140 ab: Principles and Applications of Semiconductor Photoelectrochemistry
9.00 Credits
California Institute of Technology
The properties and photoelectrochemistry of semiconductors and semiconductor/liquid junction solar cells will be discussed. Topics include optical and electronic properties of semiconductors; electronic properties of semiconductor junctions with metals, liquids, and other semiconductors, in the dark and under illumination, with emphasis on semiconductor/liquid junctions in aqueous and nonaqueous media. Problems currently facing semiconductor/liquid junctions and practical applications of these systems will be highlighted. Instructor: Lewis.
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ChE 140 ab - Principles and Applications of Semiconductor Photoelectrochemistry
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ChE 147: Polymer Chemistry
9.00 Credits
California Institute of Technology
An introduction to the chemistry of polymers, including synthetic methods, mechanisms and kinetics of macromolecule formation, and characterization techniques. Not offered 2012–13.
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ChE 147 - Polymer Chemistry
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ChE 148: Polymer Physics
9.00 Credits
California Institute of Technology
An introduction to the physics that govern polymer structure and dynamics in liquid and solid states, and to the physical basis of characterization methods used in polymer science. The course emphasizes the scaling aspects of the various physical properties. Topics include conformation of a single polymer chain under different solvent conditions; dilute and semi-dilute solutions; thermodynamics of polymer blends and block copolymers; rubber elasticity; polymer gels; linear viscoelasticity of polymer solutions and melts; glass transition and crystallization. Given in alternate years; not offered 2012–13.
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ChE 148 - Polymer Physics
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ChE 151 ab: Physical and Chemical Rate Processes
12.00 Credits
California Institute of Technology
The foundations of heat, mass, and momentum transfer for single and multiphase fluids will be developed. Governing differential equations; laminar flow of incompressible fluids at low and high Reynolds numbers; forced and free convective heat and mass transfer, diffusion, and dispersion. Emphasis will be placed on physical understanding, scaling, and formulation and solution of boundary-value problems. Applied mathematical techniques will be developed and used throughout the course. Instructor: Brady.
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ChE 151 ab - Physical and Chemical Rate Processes
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ChE 152: Heterogeneous Kinetics and Reaction Engineering
9.00 Credits
California Institute of Technology
Survey of heterogeneous reactions and reaction mechanisms on metal and oxide catalysts. Characterization of porous catalysts. Reaction, diffusion, and heat transfer in heterogeneous catalytic systems. Instructor: Davis.
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ChE 152 - Heterogeneous Kinetics and Reaction Engineering
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ChE 155: Chemistry of Catalysis
9.00 Credits
California Institute of Technology
Discussion of homogeneous and heterogeneous catalytic reactions, with emphasis on the relationships between the two areas and their role in energy problems. Topics include catalysis by metals, metal oxides, zeolites, and soluble metal complexes; utilization of hydrocarbon resources; and catalytic applications in alternative energy approaches. Not offered 2012–13.
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ChE 155 - Chemistry of Catalysis
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ChE 158: Aerosol Physics and Chemistry
9.00 Credits
California Institute of Technology
Fundamentals of aerosol physics and chemistry; aerodynamics and diffusion of aerosol particles; condensation and evaporation; thermodynamics of particulate systems; nucleation; coagulation; particle size distributions; optics of small particles. Instructor: Flagan.
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ChE 158 - Aerosol Physics and Chemistry
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ChE 163: Introduction to Biomolecular Engineering
9.00 Credits
California Institute of Technology
The course introduces rational design and evolutionary methods for engineering functional protein and nucleic acid systems. Rational design topics include molecular modeling, positive and negative design paradigms, simulation and optimization of equilibrium and kinetic properties, design of catalysts, sensors, motors, and circuits. Evolutionary design topics include evolutionary mechanisms and tradeoffs, fitness landscapes, directed evolution of proteins, and metabolic pathways. Some assignments require programming (MATLAB or Python). Instructors: Arnold, Pierce.
Prerequisite:
Bi/Ch 110 or instructor’s permission.
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ChE 163 - Introduction to Biomolecular Engineering
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ChE 164: Introduction to Statistical Thermodynamics
9.00 Credits
California Institute of Technology
An introduction to the fundamentals and simple applications of statistical thermodynamics. Foundation of statistical mechanics; partition functions for various ensembles and their connection to thermodynamics; fluctuations; noninteracting quantum and classical gases; heat capacity of solids; adsorption; phase transitions and order parameters; linear response theory; structure of classical fluids; computer simulation methods. Instructors: Wang, Miller.
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ChE 164 - Introduction to Statistical Thermodynamics
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