This research activity at IMM Agrate is mainly focused on the use of chemical methods such as atomic layer deposition (ALD) and chemical vapour deposition (CVD) to synthesize materials for...
CMOS technology exploitation is crucial to fabricate in a reliable manner nanodevices where different qubits based on spin degree of freedom can be implemented. One on the goals...
The activity regards characterization and simulation of transport in silicon nanostructures and nanodevices in the form of quantum dots (0D) or nanowires (1D), for extremely low-power...
Development of new bottom-up approaches for the synthesis of functional nanostructured materials with typical feature dimension well below 20 nm. The focus of this research...
1 Optical lithography (Contact Person: Mario Alia)
2 e-beam lithography (EBL)
3 Metal assisted chemical etching (MACE) (Contact Person: Matteo Belli)
4 Block Copolymer (BCP)...
Two-dimensional (2D) crystals beyond graphene are a new frontier in materials science that is currently having a tremendous impact on the nanotechnology of advanced materials. In the present...
The theoretical activity of the unit of Agrate Brianza is mainly focused on the simulation of material and devices that can meet the needs of present and the forthcoming nano-electronic industry...
The doping of semiconductors is a key element for the production of semiconductor devices, and it has been widely studied for bulk crystals. The possibility of realizing semiconductor nanowires...
Our final target is to determine what are the more promising materials for future ultra scaled electronic that may be based on quantum system: the realization of quantum memory, quantum computer,...