Concept
Nanostructure
Related courses (13)
CH-492: Project in molecular sciences Ia
Short research project within one of our laboratories in chemistry at SCGC.
EE-517: Bio-nano-chip design
Introduction to heterogeneous integration for Nano-Bio-CMOS sensors on Chip.
Understanding and designing of active Bio/CMOS interfaces powered by nanostructures.
MSE-484: Properties of semiconductors and related nanostructures
This course explains the origin of optical and electrical properties of semiconductors. The course elaborates how they change when the semiconductors are reduced to sizes of few nanometers. The course
MSE-619: Nanofabrication with focused electron and ion beams
Nanofabrication with focused charged particle beams (SEM, FIB) and their applications such as lithography, gas assisted deposition / etching, and milling are discussed and the limitations of these pro
MSE-703: Science and technology of UV-induced polymerization
The course presents the main classes of photopolymers and key factors which control photopolymerization. It explains how to select the right formulation and optimize processes for a given application.
PHYS-434: Physics of photonic semiconductor devices
Series of lectures covering the physics of quantum heterostructures, dielectric microcavities and photonic crystal cavities
as well as the properties of the main light emitting devices that are light-
PHYS-635: Semiconductor photonics and quantum structures
This course gives an overview of the current trends in semiconductor nanophotonics, with an emphasis on quantum nanostructures and optical cavities. Different light-matter interaction regimes in cavit
MSE-477: Nanomaterials
This course is an introduction to the concepts and associated relevant physics and materials science principles of what makes inorganic nanomaterials outperform their bulk counterparts. It covers thei
MICRO-724: Advanced topics in micro- and nanomanufacturing: top-down meets bottom-up
This course introduces advanced fabrication methods enabling the manufacturing of novel micro- and nanosystems (NEMS/MEMS). Both top-down techniques (lithography, stenciling, scanning probes, additive