Basic Science
(2 Tracks)
Core Subjects
(8 each) |
Energy Science / Technology Basis (28) |
1. Quantum Concepts for Energy
2. Solid State Principles for Energy
3. Organic/ Inorganic Chemistry for Energy
4. Applied Energy Electrochemistry
5. Thermodynamics of Energy Systems
6. Principles of Energy Materials
7. Fundamentals of Energy Devices
8. Energy & Society
|
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Advanced Quantum Matter Physics
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Energy Science Seminar
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Distinguished Lecture Series 2
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Energy Science 1
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Advanced Chemical Analysis
-
Condensed Matter Physics for Energy
-
Energy And Environment
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Quantum Mechanics for Energy
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Theory of Energy Materials
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Chemistry and Physics for Energy
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Spectroscopy for Energy Nanomaterials
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Energy Physics
-
Energy and Chemistry
-
Introduction to Energy Science & Engineering
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Electrical Engineering for Energy
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Energy Device Characterization
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Introduction to Complex Systems and Agent-Based Models
-
Games and Information (18)
|
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Device Physics
-
Energy Convergence Research 1
-
Energy Convergence Research 3
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Energy Science 2
-
Advanced Experimental Techniques
-
Multidimensional Optical Spectroscopy
-
Advanced Nano Spectroscopy for Energy
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Advanced Analysis for Energy Materials
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Energy Nanofluidics
-
Fluid Physics for Nanometer-scaled Energy Materials (9)
|
Nanomaterials/ Device Basis (14) |
-
Introduction to Thermoelectric Materials Devices
-
Distinguished Lecture Series 1
-
Energy
Engineering 1
-
Instrumental Analysis for Energy Materials
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Thermal Properties of Nanomaterials
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Crystal Structure and Defects of Energy Materials
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Electron Diffraction Imaging of Energy Materials
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Nanomaterials for Energy 1
-
Nanomaterial Analysis (9)
|
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Energy Convergence Research 2
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Nanoelectronic Devices
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Thermal Management of Energy Materials
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Nanostructure Growth and Synthesis
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Advanced Experimental Techniques 2 (5)
|
Basic Science 2 Tracks × Core Application 5 Tracks = 10 Tracks
After Basic Science Track, Students can select Core application |
Core Application (5 Tracks) |
Energy Storage (8) |
1. Quantum Concepts for Energy
2. Solid State Principles for Energy
3. Organic/ Inorganic Chemistry for Energy
4. Applied Energy Electrochemistry
5. Thermodynamics of Energy Systems
6. Principles of Energy Materials
7. Fundamentals of Energy Devices
8. Energy & Society
|
-
Fuel Cells, Batteries, and Supercapacitors 1
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Energy Convergence Research 4
-
Energy Engineering 2 (3)
|
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Fuel Cells, Batteries, and Supercapacitors 2
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Energy Science Field Training 1
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Energy Science Field Training 2
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Energy Storage 1
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Energy Storage 2 (5)
|
Energy Conversion (12) |
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Introduction to Energy Conversion
-
Large Area Electronics
-
Energy Engineering 3
-
Energy Harvesting (4)
|
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Solar Energy
-
Sustainable Energy Harvesting Technology
-
Energy Science 3
-
Energy Science 4
-
Photonic Device Technologies for Energy Saving
-
Energy Conversion1,
-
Energy Conversion 2
-
Energy Conversion 3 (8)
|
Energy System (10) |
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Holistic Approach to Energy
-
Climate Change and Risk Communication
-
Biology for Energy
-
Energy Economics (4)
|
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Introduction to Network Science
-
Physical Bioscience for Energy
-
Research, Development, and Opportunities in Future Technology
-
Surface Plasmon and Nano Optics
-
Electron Microscopy
-
Optics and Nanoscale (6)
|
Catalysis for Energy (9) |
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Chemistry of Energy Production
-
Organic Chemistry for Energy Science
-
Foreign Scholar Short Course 1
-
Energy Engineering 4 (4)
|
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Catalytic Chemistry
-
Energy Science Field Training 3
-
Energy Science Field Training 4
-
Foreign Scholar Short Course 2
-
Catalyst for Energy 1 (5)
|
|
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Laboratory of Nanoenergy 1
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Nanomaterials for Energy 3
-
Energy Nanomaterials Theory (3)
|
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Nanomaterials for Energy 2
-
Nanomaterials for Energy 4
-
Computational Modeling of Nanostructures (3)
|