[Audio] Illinois ME 498NF: Introduction of Nano Science and TechnologyIntroduction to Nano Science and Technology
This new elective course is intended to be a gateway for the senior and graduate students to the range of special graduate courses in nanoscience and technology for engineers. The course consists of topics in fundamental nanoscale science, plus an overview of areas in nanotechnology.
Part I: Concepts in Nanoscale Science
- Below the continuum: quantum mechanics
- Statistics of small ensembles: molecular transport and thermodynamics
- ...
http://nanohub.org/resources/7313
Thu, 23 Oct 2014 11:12:10 +0000HUBzero - The open source platform for scientific and educational collaborationIntroduction to Nano Science and Technology
This new elective course is intended to be a gateway for the senior and graduate students to the range of special graduate courses in nanoscience and technology for engineers. The course consists of topics in fundamental nanoscale science, plus an overview of areas in nanotechnology.
Part I: Concepts in Nanoscale Science
- Below the continuum: quantum mechanics
- Statistics of small ensembles: molecular transport and thermodynamics
- ...nanoHUB.orgsupport@nanohub.orgnoIllinois, Introduction to Nano Science, introduction to nanotech, nanotechnology generalNick Fangen-gbCopyright 2014 nanoHUB.orgResourcesIllinois ME 498 Introduction of Nano Science and Technology, Lecture 12: Surfaces and Interface Effects
http://nanohub.org/resources/7541
Surfaces and Interface EffectsTopics: Conduction of Ions in Fluid Applications of Ion Migration Electric Double Layer Debye Length Electro-Osmotic Effect Electro-Osmotic Flow Dielectrophoresis Surface and Surface Tension Molecular picture of Surface Tension Contact Angle: Young’s Equation DHow to Make Droplet Run Uphill Electro-Wetting Surface Effect & Homogeneous Nucleation Wetting on Textured SurfacesSurfaces and Interface EffectsTopics: Conduction of Ions in Fluid Applications of Ion Migration Electric Double Layer Debye Length Electro-Osmotic Effect Electro-Osmotic Flow Dielectrophoresis Surface and Surface Tension Molecular picture of Surface Tension Contact Angle: Young’s Equation DHow to Make Droplet Run Uphill Electro-Wetting Surface Effect & Homogeneous Nucleation Wetting on Textured Surfacesnocourse lecture, Illinois, Interface Effect, Surface Effect, surfacesNick Fang, Omar N SobhNick Fang, Omar N SobhOnline PresentationsWed, 14 Oct 2009 00:53:31 +0000/http://nanohub.org/site/resources/2009/10/07544/Lecture_12.mp3Illinois ME 498 Introduction of Nano Science and Technology, Lecture 6: Basics of Transport in Nanostructures
http://nanohub.org/resources/7459
Basics of Transport in NanostructuresTopics: For Quantum Particles How Fast do they move? Photon Excitation in Materials Surface Plasmons Application: Metamaterials Effect of Nanoscale Confinement Internal Energy and Specific Heat Thermal Radiation Internal Energy of Phonons Specific Heat CapacityBasics of Transport in NanostructuresTopics: For Quantum Particles How Fast do they move? Photon Excitation in Materials Surface Plasmons Application: Metamaterials Effect of Nanoscale Confinement Internal Energy and Specific Heat Thermal Radiation Internal Energy of Phonons Specific Heat Capacitynocourse lecture, Illinois, nick fangWen-Mei W Hwu, Omar N SobhWen-Mei W Hwu, Omar N SobhOnline PresentationsWed, 30 Sep 2009 17:55:59 +0000/http://nanohub.org/site/resources/2009/09/07463/Lecture_6.mp3Illinois ME 498 Introduction of Nano Science and Technology, Lecture 9: Thermal and Electric Conduction in Nanostructures
http://nanohub.org/resources/7522
Thermal and Electric Conduction in NanostructuresTopics: Quantum Fracture Mechanics Magneto-restrictive Effect Shape Memory Effect Thermal Noise in Resonators Back to Constitutive Equations Look Into the Conducting Nanowires Boltzmann Transport EquationThermal and Electric Conduction in NanostructuresTopics: Quantum Fracture Mechanics Magneto-restrictive Effect Shape Memory Effect Thermal Noise in Resonators Back to Constitutive Equations Look Into the Conducting Nanowires Boltzmann Transport Equationnocourse lecture, Illinois, Thermal and Electric Conduction in Nanostructures, thermoelectrics, thermoelectronicsNick Fang, Omar N SobhNick Fang, Omar N SobhOnline PresentationsThu, 08 Oct 2009 01:10:18 +0000/http://nanohub.org/site/resources/2009/10/07525/Lecture_9.mp3Illinois ME 498 Introduction of Nano Science and Technology, Lecture 10: Thermal and Electric Conduction in Nanostructures
http://nanohub.org/resources/7526
Thermal and Electric Conduction in NanostructuresTopics: Back to Constitutive Equations Coupled Heat and Electron Conduction Thermoelectric Cooling Principle of Thermoelectric Effect Comparison of Different Materials Challenges in Efficiency Nanoscale ThermoelectricityThermal and Electric Conduction in NanostructuresTopics: Back to Constitutive Equations Coupled Heat and Electron Conduction Thermoelectric Cooling Principle of Thermoelectric Effect Comparison of Different Materials Challenges in Efficiency Nanoscale Thermoelectricitynocourse lecture, Illinois, thermal transport, thermoelectrics, thermoelectronicsNick Fang, Omar N SobhNick Fang, Omar N SobhOnline PresentationsThu, 08 Oct 2009 01:10:20 +0000/http://nanohub.org/site/resources/2009/10/07529/Lecture_10.mp3Illinois ME 498 Introduction of Nano Science and Technology, Lecture 11: Transport and Electrokenetics in Nanoscale Fluids
http://nanohub.org/resources/7530
Transport and ElectrokeneticsTopics: Back to Constitutive Equations Coupled Heat and Electron Conduction Thermoelectric Cooling New Directions for Nano-Thermoelectricity State-of-the-Art in Thermoelectrics Hornet Skin: A Natural heat Pump Coupled Charge-Mass Transport in FluidTransport and ElectrokeneticsTopics: Back to Constitutive Equations Coupled Heat and Electron Conduction Thermoelectric Cooling New Directions for Nano-Thermoelectricity State-of-the-Art in Thermoelectrics Hornet Skin: A Natural heat Pump Coupled Charge-Mass Transport in Fluidnocourse lecture, Illinois, nanofluidicsNick Fang, Omar N SobhNick Fang, Omar N SobhOnline PresentationsThu, 08 Oct 2009 01:10:22 +0000/http://nanohub.org/site/resources/2009/10/07532/Lecture_11.mp3Illinois ME 498 Introduction of Nano Science and Technology, Lecture 7: Basics of Solid Mechanics in Nanostructures
http://nanohub.org/resources/7464
Basics of Solid Mechanics in NanostructuresTopics: Kinetic Theory of Energy Transport Averaging over all the solid angles Mechanics at Nanoscale How Strong are Crystalline Materials Theoretical Cohesive Strength Failure in Tension vs. Shear Frenkel Analysis Comparisons of Theoretical Strength Defects in Solids Edge, Screw, and Mixed Dislocations Bulk Dislocation Movement Interfacial Defects - Planar Stress FieldsBasics of Solid Mechanics in NanostructuresTopics: Kinetic Theory of Energy Transport Averaging over all the solid angles Mechanics at Nanoscale How Strong are Crystalline Materials Theoretical Cohesive Strength Failure in Tension vs. Shear Frenkel Analysis Comparisons of Theoretical Strength Defects in Solids Edge, Screw, and Mixed Dislocations Bulk Dislocation Movement Interfacial Defects - Planar Stress Fieldsnocourse lecture, Illinois, nick fangWen-Mei W Hwu, Omar N SobhWen-Mei W Hwu, Omar N SobhOnline PresentationsWed, 30 Sep 2009 17:56:10 +0000/http://nanohub.org/site/resources/2009/09/07467/Lecture_7.mp3Illinois ME 498 Introduction of Nano Science and Technology, Lecture 8: Basics of Solid Mechanics in Nanostructures
http://nanohub.org/resources/7517
Basics of Solid Mechanics in NanostructuresTopics: Mechanics at Nanoscale Theoretical Cohesive Strength Defects in Solids Bulk Dislocation Movement Stress Fields Quantum Fracture Mechanics Mechanical Coupling at Nanoscale Shape Memory Effect Mechanical NanoresonatorsBasics of Solid Mechanics in NanostructuresTopics: Mechanics at Nanoscale Theoretical Cohesive Strength Defects in Solids Bulk Dislocation Movement Stress Fields Quantum Fracture Mechanics Mechanical Coupling at Nanoscale Shape Memory Effect Mechanical Nanoresonatorsnocourse lecture, IllinoisNick Fang, Omar N SobhNick Fang, Omar N SobhOnline PresentationsThu, 08 Oct 2009 01:10:16 +0000/http://nanohub.org/site/resources/2009/10/07521/Lecture_8.mp3