[ undergraduate program | graduate program | faculty ]
All courses, faculty listings, and curricular and degree requirements described herein are subject to change or deletion without notice.
For course descriptions not found in the UC San Diego General Catalog 201819, please contact the department for more information.
The department website is http://nanoengineering.ucsd.edu/undergrad-programs
All students enrolled in NanoEngineering courses or admitted to the NanoEngineering major are expected to meet prerequisite and performance standards, i.e., students may not enroll in any NanoEngineering courses or courses in another department that are required for the major prior to having satisfied prerequisite courses with a C or better. (The department does not consider D or F grades as adequate preparation for subsequent material.) Additional details are given under the program outline, course descriptions, and admission procedures for the Jacobs School of Engineering in this catalog.
NANO 1. NanoEngineering Seminar (1)
Overview of NanoEngineering. Presentations and discussions of basic knowledge and career opportunities in nanotechnology for professional development. Introduction to campus library resources. P/NP grades only.
NANO 4. ExperienceNanoEngineering(1)
Introduction to NanoEngineering lab-based skills. Hands-on training and experimentation with nanofabrication techniques, integration, and analytical tools. This class is for NANO majors who are incoming freshmen, to be taken their first year.This class is for NanoEngineering majors who are incoming freshmen, to be taken their first year. P/NP grades only. Prerequisites: department approval required.
NANO 15. Engineering Computation Using Matlab (4)
Introduction to the solution of engineering problems using computational methods. Formulating problem statements, selecting algorithms, writing computer programs, and analyzing output using Matlab. Computational problems from NanoEngineering, chemical engineering, and materials science are introduced. The course requires no prior programming skills. Cross-listed with CENG 15.
NANO 15R. Engineering Computation Using Matlab Online
Introduction to solution of engineering problems using computational methods. Formulating problem statements, selecting algorithms, writing computer programs, and analyzing output using Matlab. Computational problems from NanoEngineering, chemical engineering, and materials science are introduced. This is a fully online, self-paced course that utilizes multi-platform instructional techniques (video, text, and instructional coding environments). The course requires no prior programming skills. Students may not receive credit for both CENG 15 and NANO 15. Cross-listed with CENG 15R. Students may only receive credit for one of the following: NANO 15R, NANO 15, CENG 15R, or CENG 15.
NANO 100L. Physical Properties of Materials Lab (4)
Experimental investigation of physical properties of materials such as: thermal expansion coefficient, thermal conductivity, glass transitions in polymers, resonant vibrational response, longitudinal and shear acoustic wave speeds, Curie temperatures, UV-VIS absorption and reflection. Prerequisites: NANO 108.
NANO 101. Introduction to NanoEngineering (4)
Introduction to NanoEngineering; nanoscale fabrication: nanolithography and self-assembly; characterization tools; nanomaterials and nanostructures: nanotubes, nanowires, nanoparticles, and nanocomposites; nanoscale and molecular electronics; nanotechnology in magnetic systems; nanotechnology in integrative systems; nanoscale optoelectronics; nanobiotechnology: biomimetic systems, nanomotors, nanofluidics, and nanomedicine. Priority enrollment given to NanoEngineering majors. Prerequisites: NANO 1 or NANO 4, Chem 6B, Phys 2B, Math 20C, and CENG 15 or CENG 15R or NANO 15 or NANO 15R or MAE 8. Department approval required.
NANO 102. Foundations in NanoEngineering: Chemical Principles (4)
Chemical principles involved in synthesis, assembly, and performance of nanostructured materials and devices. Chemical interactions, classical and statistical thermodynamics of small systems, diffusion, carbon-based nanomaterials, supramolecular chemistry, liquid crystals, colloid and polymer chemistry, lipid vesicles, surface modification, surface functionalization, catalysis. Priority enrollment given to NanoEngineering majors. Prerequisites: Chem 6C, Math 20D, NANO 101, PHYS 2D, and NANO 106. Restricted to NanoEngineering majors or by department approval.
NANO 103. Foundations in NanoEngineering: Biochemical Principles (4)
Principles of biochemistry tailored to nanotechnologies. The structure and function of biomolecules and their specific roles in molecular interactions and signal pathways. Detection methods at the micro and nano scales. Priority enrollment will be given to NanoEngineering majors. Prerequisites: BILD 1, Chem 6C, NANO 101, and NANO 102. Department approval required.
NANO 104. Foundations in NanoEngineering: Physical Principles (4)
Introduction to quantum mechanics and nanoelectronics. Wave mechanics, the Schroedinger equation, free and confined electrons, band theory of solids. Nanosolids in 0D, 1D, and 2D. Application to nanoelectronic devices. Priority enrollment given to NanoEngineering majors Prerequisites: Math 20D, NANO 101. Department approval required.
NANO 106. Crystallography of Materials (4)
Fundamentals of crystallography, and practice of methods to study material structure and symmetry. Curie symmetries. Tensors as mathematical description of material properties and symmetry restrictions. Introduction to diffraction methods, including X-ray, neutron, and electron diffraction. Close-packed and other common structures of real-world materials. Derivative and superlattice structures. Prerequisites: Math 20F.
NANO 107.Electronic Devices and Circuits for Nanoengineers (4)
Overview of electrical devices and CMOS integrated circuits emphasizing fabrication processes, and scaling behavior. Design, and simulation of submicron CMOS circuits including amplifiers active filters digital logic, and memory circuits. Limitations of current technologies and possible impact of nanoelectronic technologies.Prerequisites: NANO 15, NANO 101, Math 20B or Math 20D, and Phys 2B.
NANO 108. Materials Science and Engineering (4)
Structure and control of materials: metals, ceramics, glasses, semiconductors, polymers to produce useful properties. Atomic structures. Defects in materials, phase diagrams, micro structural control. Mechanical, rheological, electrical, optical and magnetic properties discussed. Time temperature transformation diagrams. Diffusion. Scale dependent material properties. Prerequisites: upper-division standing.
NANO 110. Molecular Modeling of Nanoscale Systems (4)
Principles and applications of molecular modeling and simulations toward NanoEngineering. Topics covered include molecular mechanics, energy minimization, statistical mechanics, molecular dynamics simulations, and Monte Carlo simulations. Students will get hands-on training in running simulations and analyzing simulation results. Prerequisites: Math 20F, NANO 102, NANO 104, and NANO 15 or CENG 15 or MAE 8. Restricted to NanoEngineering majors or by department approval.
NANO 111. Characterization of NanoEngineering Systems (4)
Fundamentals and practice of methods to image, measure, and analyze materials and devices that are structured at the nanometer scale. Optical and electron microscopy; scanning probe methods; photon-, ion-, electron-probe methods, spectroscopic, magnetic, electrochemical, and thermal methods. Prerequisites: NANO 102.
NANO 112. Synthesis and Fabrication of NanoEngineering Systems (4)
Introduction to methods for fabricating materials and devices in NanoEngineering. Nano-particle, -vesicle, -tube, and -wire synthesis. Top-down methods including chemical vapor deposition, conventional and advanced lithography, doping, and etching. Bottom-up methods including self-assembly. Integration of heterogeneous structures into functioning devices. Prerequisites: NANO 102, NANO 104, NANO 111.
NANO 114. Probability and Statistical Methods for Engineers (4)
Probability theory, conditional probability, Bayes theorem, discrete random variables, continuous random variables, expectation and variance, central limit theorem, graphical and numerical presentation of data, least squares estimation and regression, confidence intervals, testing hypotheses. Cross-listed with CENG 114. Students may not receive credit for both NANO 114 and CENG 114. Prerequisites: Math 20F and NANO 15 or CENG 15 or MAE 8.
NANO 120A. NanoEngineering System Design I (4)
Principles of product design and the design process. Application and integration of technologies in the design and production of nanoscale components. Engineering economics. Initiation of team design projects to be completed in NANO 120B. Prerequisites: NANO 110.
NANO 120B. NanoEngineering System Design II (4)
Principles of product quality assurance in design and production. Professional ethics. Safety and design for the environment. Culmination of team design projects initiated in NANO 120A with a working prototype designed for a real engineering application. Prerequisites: NANO 120A.
NANO 134. Polymeric Materials (4)
Foundations of polymeric materials. Topics: structure of polymers; mechanisms of polymer synthesis; characterization methods using calorimetric, mechanical, rheological, and X-ray-based techniques; and electronic, mechanical, and thermodynamic properties. Special classes of polymers: engineering plastics, semiconducting polymers,photoresists, and polymers for medicine. Cross-listed with CENG 134.Students may not receive credit for bothCENG134 andNANO134. Prerequisites:Chem 6Cand Phys2C.
NANO 141A. Engineering Mechanics I: Analysis of Equilibrium (4)
Newtons laws. Concepts of force and moment vector. Free body diagrams. Internal and external forces. Equilibrium of concurrent, coplanar, and three-dimensional system of forces. Equilibrium analysis of structural systems, including beams, trusses, and frames. Equilibrium problems with friction. Prerequisites:Math 20C and Phys 2A.
NANO 141B.Engineering Mechanics II: Analysis of Motion (4)
Newtons laws of motion. Kinematic and kinetic description of particle motion. Angular momentum. Energy and work principles. Motion of the system of interconnected particles.Mass center. Degrees of freedom. Equations of planar motion of rigid bodies. Energy methods. Lagranges equations of motion. Introduction to vibration. Free and forced vibrations of a single degree of freedom system. Undamped and damped vibrations. Application to NanoEngineering problems.Prerequisites:Math 20D and NANO 141A.
NANO 146. Nanoscale Optical Microscopy and Spectroscopy (4)
Fundamentals in optical imaging and spectroscopy at the nanometer scale. Diffraction-limited techniques, near-field methods, multi-photon imaging and spectroscopy, Raman techniques, Plasmon-enhanced methods, scan-probe techniques, novel sub-diffraction-limit imaging techniques, and energy transfer methods. Prerequisites: NANO 103 and 104.
NANO 148. Thermodynamics of Materials (4)
Fundamental laws of thermodynamics for simple substances; application to flow processes and to non-reacting mixtures; statistical thermodynamics of ideal gases and crystalline solids; chemical and materials thermodynamics; multiphase and multicomponent equilibria in reacting systems; electrochemistry. Prerequisites: upper-division standing.
NANO 150. Mechanics of Nanomaterials (4)
Introduction to mechanics of rigid and deformable bodies. Continuum and atomistic models, interatomic forces and intermolecular interactions. Nanomechanics, material defects, elasticity, plasticity, creep, and fracture. Composite materials, nanomaterials, biological materials. Prerequisites: NANO 108.
NANO 156. Nanomaterials (4)
Basic principles of synthesis techniques, processing, microstructural control, and unique physical properties of materials in nanodimensions. Nanowires, quantum dots, thin films, electrical transport, optical behavior, mechanical behavior, and technical applications of nanomaterials. Cross-listed with MAE 166. Prerequisites: upper-division standing.
NANO 158. Phase Transformations and Kinetics (4)
Materials and microstructures changes. Understanding of diffusion to enable changes in the chemical distribution and microstructure of materials, rates of diffusion. Phase transformations, effects of temperature and driving force on transformations and microstructure. Prerequisites: NANO 108 and NANO 148.
NANO 158L.Materials Processing Laboratory(4)
Metal casting processes, solidification, deformation processing, thermal processing: solutionizing, aging, and tempering, joining processes such as welding and brazing. The effect of processing route on microstructure and its effect on mechanical and physical properties will be explored.NanoEngineering majors have priority enrollment. Prerequisites:NANO 158.
NANO 161. Material Selection in Engineering (4)
Selection of materials for engineering systems, based on constitutive analyses of functional requirements and material properties. The role and implications of processing on material selection. Optimizing material selection in a quantitative methodology. NanoEngineering majors receive priority enrollment. Prerequisites: NANO 108. Department approval required. Restricted to major code NA25.
NANO 164. Advanced Micro- and Nano-materials for Energy Storage and Conversion (4)
Materials for energy storage and conversion in existing and future power systems, including fuel cells and batteries, photovoltaic cells, thermoelectric cells, and hybrids. Prerequisites: NANO 101, NANO 102, NANO 148.
NANO 168. Electrical, Dielectric, and Magnetic Properties of Engineering Materials (4)
Introduction to physical principles of electrical, dielectric, and magnetic properties. Semiconductors, control of defects, thin film, and nanocrystal growth, electronic and optoelectronic devices. Processing-microstructure-property relations of dielectric materials, including piezoelectric, pyroelectric and ferroelectric, and magnetic materials. Prerequisites: NANO 102 and NANO 104.
NANO 174. Mechanical Behavior of Materials (4)
Microscopic and macroscopic aspects of the mechanical behavior of engineering materials, with emphasis on recent development in materials characterization by mechanical methods. The fundamental aspects of plasticity in engineering materials, strengthening mechanisms, and mechanical failure modes of materials systems. Prerequisites: NANO 108.
NANO 174L. Mechanical Behavior Laboratory (4)
Experimental investigation of mechanical behavior of engineering materials. Laboratory exercises emphasize the fundamental relationship between microstructure and mechanical properties, and the evolution of the microstructure as a consequence of rate process. Prerequisites: NANO 174.
NANO 199. Independent Study for Undergraduates (4)
Independent reading or research on a problem by special arrangement with a faculty member. P/NP grades only. Prerequisites: upper division and department stamp.
NANO 200. Graduate Seminar in Chemical Engineering (1)
Each graduate student in NANO is expected to attend three seminars per quarter, of his or her choice, dealing with current topics in chemical engineering. Topics will vary. Cross-listed with CENG 205. S/U grades only. May be taken for credit four times. Prerequisites: graduate standing.
NANO 201. Introduction to NanoEngineering (4)
Understanding nanotechnology, broad implications, miniaturization: scaling laws; nanoscale physics; types and properties of nanomaterials; nanomechanical oscillators, nano(bio)electronics, nanoscale heat transfer; fluids at the nanoscale; machinery cell; applications of nanotechnology and nanobiotechnology. Students may not receive credit for both NANO 201 and CENG 211. Prerequisites: graduate standing.
NANO 202. Intermolecular and Surface Forces (4)
Development of quantitative understanding of the different intermolecular forces between atoms and molecules and how these forces give rise to interesting phenomena at the nanoscale, such as flocculation, wetting, self-assembly in biological (natural) and synthetic systems. Cross-listed with CENG 212. Students may not receive credit for both NANO 202 and CENG 212. Prerequisites: consent of instructor.
NANO 203. Nanoscale Characterization (4)
Examination of nanoscale characterization approaches including imaging, scattering, and spectroscopic techniques and their physical operating mechanisms. Microscopy (optical and electron: SEM, TEM); scattering and diffraction; spectroscopies (EDX, SIMS, mass spec, Raman, XPS, XAS); scanning probe microscopes (SPM, AFM); particle size analysis.
NANO 204. Nanoscale Physics and Modeling (4)
This course will introduce students to analytical and numerical methods such as statistical mechanisms, molecular simulations, and finite differences and finite element modeling through their application to NanoEngineering problems involving polymer and colloiod self-assembly, absorption, phase separation, and diffusion. Cross-listed with CENG 214. Students may not receive credit for both NANO 204 and CENG 214. Prerequisites: NANO 202 or consent ofinstructor.
NANO 205. Nanosystems Integration (4)
Scaling issues and hierarchical assembly of nanoscale components into higher order structures which retain desired properties at microscale and macroscale levels. Novel ways to combine top-down and bottom-up processes for integration of heterogeneous components into higher order structures. Cross-listed with CENG 215. Students may not receive credit for both NANO 205 and CENG 215. Prerequisites: consent of instructor.
NANO 208. Nanofabrication (4)
Basic engineering principles of nanofabrication. Topics include: photo-electronbeam and nanoimprint lithography, block copolymers and self-assembled monolayers, colloidal assembly, biological nanofabrication. Cross-listed with CENG 208. Students may not receive credit for both NANO 208 and CENG 208. Prerequisites: consent of instructor.
NANO 210. Molecular Modeling and Simulations of Nanoscale Systems (4)
Molecular and modeling and simulation techniques like molecular dynamics, Monte Carlo, and Brownian dynamics to model nanoscale systems and phenomena like molecular motors, self-assembly, protein-ligand binding, RNA, folding. Valuable hands-on experience with different simulators.Prerequisites: consent of instructor.
NANO 212. Computational Modeling of Nanosystems (4)
Various modeling techniques like finite elements, finite differences, and simulation techniques like molecular dynamics and Monte Carlo to model fluid flow, mechanical properties, self-assembly at the nanoscale, and protein, RNA and DNA folding.Prerequisites: consent of instructor.
NANO 227. Structure and Analysis of Solids (4)
Key concepts in the atomic structure and bonding of solids such as metals, ceramics, and semiconductors. Symmetry operations, point groups, lattice types, space groups, simple and complex inorganic compounds, structure/property comparisons, structure determination with X-ray diffraction. Ionic, covalent, metallic bonding compared with physical properties. Atomic and molecular orbitals, bands verses bonds, free electron theory. Cross-listed with MATS 227, MAE 251 and Chem 222.Prerequisites: consent of instructor.
NANO 230. Synchrotron Characterization of Nanomaterials (4)
Advanced topics in characterizing nanomaterials using synchrotron X-ray sources. Introduction to synchrotron sources, X-ray interaction with matter, spectroscopic determination of electronic properties of nanomagnetic, structural determination using scattering techniques and X-ray imaging techniques. Cross-listed with CENG 230. Students may not receive credit for both NANO 230 and CENG 230. Prerequisites: consent of instructor.
NANO 234. Advanced Nanoscale Fabrication (4)
Engineering principles of nanofabrication. Topics include: photo-, electron beam, and nanoimprint lithography, block copolymers and self-assembled monolayers, colloidal assembly, biological nanofabrication. Relevance to applications in energy, electronics, and medicine will be discussed.Prerequisites: consent of instructor.
NANO 238. Scanning Probe Microscopy (4)
Scanning electron microscopy (SEM) detectors, imaging, image interpretation, and artifacts, introduction to lenses, electron beam-specimen interactions. Operating principles and capabilities for atomic force microscopy and scanning tunneling microscopy, scanning optical microscopy and scanning transmission electron microscopy.Prerequisites: consent of instructor.
NANO 239. Nanomanufacturing (4)
Fundamental nanomanufacturing science and engineering, top-down nanomanufacturing processes, bottom-up nanomanufacturing processes, integrated top-down and bottom-up nanofabrication processes, three-dimensional nanomanufacturing, nanomanufacturing systems, nanometrology, nanomanufactured devices for medicine, life sciences, energy, and defense applications.Prerequisites: department approval required.
NANO 241. Organic Nanomaterials (4)
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