The course has the task of increasing the knowledge in chemical process technology related to electronics, both well-established industrially but also more innovative ones.
teacher profile teaching materials
2. organic chemistry
3. LED and OLED
4. Traditional and organic solar cells
5. Liquid crystals; LCD
6. Solids: crystals and crystal structures: metallic solids, ionic solids, covalent solids, molecular solids. crystal systems; morphology of the crystals, the Miller indices; Packing of spheres in a plane: hcp, fcc, bcc, density of a crystal. crystal lattice; 32 crystallographic point groups; unified and reduced cell, the 14 Bravais lattices. crystal classes and properties.
7. Structure and energy of the surfaces
to. surface structures of metals: fcc {100} {110} {111}; hcp {0001}; bcc {100} {110} {111}; energy surfaces, relaxation and reconstruction
8. Structural defects: point defects, linear defects or dislocations; planar defects or interfacial or grain boundaries; volume defects
9. Techniques of surface survey
11. Silicon Technology
12. The electronic balance :, electrochemical cells, electrode processes, Nerst equation; electrolysis; corrosion, galvanic corrosion and differential, methods of protection. Commercial batteries. Fuel cells
Programme
1. Atomic structure and chemical bonds: Review of general chemistry: atoms, chemical bonding, molecular geometry (VB valence bond, molecular orbitals MO)2. organic chemistry
3. LED and OLED
4. Traditional and organic solar cells
5. Liquid crystals; LCD
6. Solids: crystals and crystal structures: metallic solids, ionic solids, covalent solids, molecular solids. crystal systems; morphology of the crystals, the Miller indices; Packing of spheres in a plane: hcp, fcc, bcc, density of a crystal. crystal lattice; 32 crystallographic point groups; unified and reduced cell, the 14 Bravais lattices. crystal classes and properties.
7. Structure and energy of the surfaces
to. surface structures of metals: fcc {100} {110} {111}; hcp {0001}; bcc {100} {110} {111}; energy surfaces, relaxation and reconstruction
8. Structural defects: point defects, linear defects or dislocations; planar defects or interfacial or grain boundaries; volume defects
9. Techniques of surface survey
11. Silicon Technology
12. The electronic balance :, electrochemical cells, electrode processes, Nerst equation; electrolysis; corrosion, galvanic corrosion and differential, methods of protection. Commercial batteries. Fuel cells
Core Documentation
Lecture notesType of delivery of the course
The course is held with traditional lessons with the help of slides that are made available to studentsType of evaluation
The final test is carried out orally on the topics covered in class