printer friendly pageMATSCI 164: Electronic and Photonic Materials and Devices Laboratory (MATSCI 174)
Lab course. Current electronic and photonic materials and devices. Device physics and micro-fabrication techniques. Students design, fabricate, and perform physical characterization on the devices they have fabricated. Established techniques and materials such as photolithography, metal evaporation, and Si technology; and novel ones such as soft lithography and organic semiconductors. Prerequisite: 152 or 199 or consent of instructor. Undergraduates register in 164 for 4 units; graduates register in 174 for 3 units.
Terms: Aut
| Units: 3-4
| UG Reqs: GER:DB-EngrAppSci
MATSCI 165: Nanoscale Materials Physics Computation Laboratory (MATSCI 175)
Computational exploration of fundamental topics in materials science using Java-based computation and visualization tools. Emphasis is on the atomic-scale origins of macroscopic materials phenomena. Simulation methods include molecular dynamics and Monte Carlo with applications in thermodynamics, kinetics, and topics in statistical mechanics. Required prerequisites: Freshman-level physics, undergraduate thermodynamics. Undergraduates register for 165 for 4 units; graduates register for 175 for 3 units.
Terms: Win
| Units: 3-4
| UG Reqs: WAY-SMA
MATSCI 171: Energy Materials Laboratory (MATSCI 161)
A material that is currently being used in a cutting edge energy -related device such as a solar cell, battery or smart window will be thoroughly characterized throughout the quarter. Fabrication techniques could include electroplating, spin coating and thermal evaporation. There will be an emphasis in this course on characterization methods such as scanning electron microscopy, x-ray photoelectron spectroscopy, atomic force microscopy, optical microscopy, four-point probe measurements of conductivity, visible absorption and reflection spectroscopy and electrochemical measurements (cyclic voltammetry). Devices will be fabricated and their performance will be tested. In this Writing in the Major course, students will put together all of the data they collect during the quarter into a final paper. Undergraduates register for 161 for 4 units; graduates register for 171 for 3 units.
Terms: Win
| Units: 3-4
Instructors:
McGehee, M. (PI)
;
Slotcavage, D. (TA)
MATSCI 172: X-Ray Diffraction Laboratory (MATSCI 162, PHOTON 172)
Experimental x-ray diffraction techniques for microstructural analysis of materials, emphasizing powder and single-crystal techniques. Diffraction from epitaxial and polycrystalline thin films, multilayers, and amorphorous materials using medium and high resolution configurations. Determination of phase purity, crystallinity, relaxation, stress, and texture in the materials. Advanced experimental x-ray diffraction techniques: reciprocal lattice mapping, reflectivity, and grazing incidence diffraction. Enrollment limited to 20. Undergraduates register for 162 for 4 units; graduates register for 172 for 3 units.
Terms: Win
| Units: 3-4
Instructors:
Vailionis, A. (PI)
;
Kim, P. (TA)
MATSCI 173: Mechanical Behavior Laboratory (MATSCI 163)
Technologically relevant experimental techniques for the study of the mechanical behavior of engineering materials in bulk and thin film form, including tension testing, nanoindentation, and wafer curvature stress analysis. Metallic and polymeric systems. In addition to regularly scheduled lecture, includes four three-hour lab sessions, to be scheduled after first class meeting. Prerequisite:
ENGR 50. Undergraduates register for 163 in 4 units; graduates register in 173 for 3 units.
Terms: Aut
| Units: 3-4
Instructors:
Brock, R. (PI)
;
de la Zerda, A. (TA)
MATSCI 174: Electronic and Photonic Materials and Devices Laboratory (MATSCI 164)
Lab course. Current electronic and photonic materials and devices. Device physics and micro-fabrication techniques. Students design, fabricate, and perform physical characterization on the devices they have fabricated. Established techniques and materials such as photolithography, metal evaporation, and Si technology; and novel ones such as soft lithography and organic semiconductors. Prerequisite: 152 or 199 or consent of instructor. Undergraduates register in 164 for 4 units; graduates register in 174 for 3 units.
Terms: Aut
| Units: 3-4
MATSCI 175: Nanoscale Materials Physics Computation Laboratory (MATSCI 165)
Computational exploration of fundamental topics in materials science using Java-based computation and visualization tools. Emphasis is on the atomic-scale origins of macroscopic materials phenomena. Simulation methods include molecular dynamics and Monte Carlo with applications in thermodynamics, kinetics, and topics in statistical mechanics. Required prerequisites: Freshman-level physics, undergraduate thermodynamics. Undergraduates register for 165 for 4 units; graduates register for 175 for 3 units.
Terms: Win
| Units: 3-4
MATSCI 190: Organic and Biological Materials (MATSCI 210)
Unique physical and chemical properties of organic materials and their uses.The relationship between structure and physical properties, and techniques to determine chemical structure and molecular ordering. Examples include liquid crystals, dendrimers, carbon nanotubes, hydrogels, and biopolymers such as lipids, protein, and DNA. Prerequisite: Thermodynamics and
ENGR 50 or equivalent. Undergraduates register for 190 for 4 units; graduates register for 210 for 3 units.
Terms: Spr
| Units: 3-4
| UG Reqs: WAY-SMA, WAY-AQR, GER:DB-EngrAppSci
MATSCI 192: Materials Chemistry (MATSCI 202)
An introduction to the fundamental physical chemical principles underlying materials properties. Beginning from basic quantum chemistry, students will learn how the electronic configuration of molecules and solids impacts their structure, stability/reactivity, and spectra. Topics for the course include molecular symmetry, molecular orbital theory, solid-state chemistry, coordination compounds, and nanomaterials chemistry. Using both classroom lectures and journal discussions, students will gain an understanding of and be well-positioned to contribute to the frontiers of materials chemistry, ranging from solar-fuel generation to next-generation cancer treatments. Undergraduates register in 192 for 4 units; graduates register in 202 for 3 units.
Terms: Spr
| Units: 3-4
| UG Reqs: GER:DB-EngrAppSci
Instructors:
Cui, Y. (PI)
;
Liu, Y. (TA)
MATSCI 193: Atomic Arrangements in Solids (MATSCI 203)
Atomic arrangements in perfect and imperfect solids, especially important metals, ceramics, and semiconductors. Elements of formal crystallography, including development of point groups and space groups. Undergraduates register in 193 for 4 units; graduates register in 203 for 3 units.
Terms: Aut
| Units: 3-4
| UG Reqs: GER:DB-EngrAppSci
Instructors:
Reed, E. (PI)
;
Tang-Kong, R. (TA)
Filter Results: