Grau en Enginyeria en Tecnologies
Industrials - ET1039 - Nanotechnology
Contents
Contents
Presentations and calendar | |
Chapter 1: Fundamentals of solid state 1.1 Atoms and light: Some basic properties and units Wave function Heisenberg uncertainty principle 1.2 Wave function of matter: Schrödinger equation Tunnel effect 1.3 Energy bands in solids Conductors, semiconductors and insulators Fermi level, work function, electron affinity. Intrinsec and extrinsec semiconductors |
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Chapter 2: Physical- chemical properties of nanostructures |
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Chapter 3: Fabricating NanoStructures 3.1 Crystal Growth 3.2 MOS Transistors 3.3 Lithography |
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Chapter 4: Applications with organic, inorganic and hybrid
materials 4.1 Photocatalysis 4.2 Solar cells (dye, organic, perovskite) 4.3 Electronic and optoelectronic devices 4.4 Biosensors and enzymatic fuel cells 4.5 Batteries and Supercapacitors 4.6 Graphene 4.7 Piezoelectrics |
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Laboratory: TiO2 preparation Dye solar cells Electrochromism with Viologen Electrochromism with metals Water spliting Photocatalysis |