1 |
0. Introduction to Part II Quantum Mechanical Methods |
Introduction to Modeling and Simulation (MIT) |
MIT |
Applied Sciences |

2 |
1. It’s a quantum world The theory of quantum mechanics |
Introduction to Modeling and Simulation (MIT) |
MIT |
Applied Sciences |

3 |
2. Practice makes perfect |
Introduction to Modeling and Simulation (MIT) |
MIT |
Applied Sciences |

4 |
3. From many-body to single-particle Quantum modeling of molecules |
Introduction to Modeling and Simulation (MIT) |
MIT |
Applied Sciences |

5 |
4. Application of QM modeling Solar thermal fuels (I) |
Introduction to Modeling and Simulation (MIT) |
MIT |
Applied Sciences |

6 |
5. Application of QM modeling Solar thermal fuels (II) |
Introduction to Modeling and Simulation (MIT) |
MIT |
Applied Sciences |

7 |
6. Hydrogen storage, and atoms to molecules |
Introduction to Modeling and Simulation (MIT) |
MIT |
Applied Sciences |

8 |
7. Quantum modeling of solids Basic properties |
Introduction to Modeling and Simulation (MIT) |
MIT |
Applied Sciences |

9 |
8. Advance properties of materials What else can we do? |
Introduction to Modeling and Simulation (MIT) |
MIT |
Applied Sciences |

10 |
9. Some review and introduction to solar photovoltaics |
Introduction to Modeling and Simulation (MIT) |
MIT |
Applied Sciences |

11 |
10. Solar photovoltaics |
Introduction to Modeling and Simulation (MIT) |
MIT |
Applied Sciences |