ISTITUTO DEI MATERIALI PER L’ELETTRONICA ED IL MAGNETISMO
Sede: Parma - UOS: Genova, Trento, Torino
Chocralski CdTe
MAP of the LABS
CZT X-ray det. response
ZnO TP SEI
CL l = 381 nm
CL l = 515 nm
MBE
SnO2 NBs
3
Magnetisation (emu/cm )
800
400
//

0
Ab initio calculations
-400
14
1x10
Inorg/Inorg Org/Inorg - 1 Org/Inorg - 2
2
ions/cm
A1
-800
-15
-10
MFM
-5
0
5
10
15
Magnetic field (kOe)
Nanosystem for drug delivery
i.e. based on Magnetic NP
0.136 nm
InN/InGaN InN/Dyes
[110]
ZnO/Dyes
Polyelectrolyte capsules
Si
Organic Bioelectronics and
Memristors
0.5 nm
SYNAPSES
Homo- (a) and hetero- (b)
Synaptic junctions
Model of learning for Limnea
Stagnalis: association of the mechanical
stimulus with presence of food
Nanosystems for Photodynamic therapy
Intensity (arb. unit)
Sputtering
Zero loss
high gain
C-K edge
Plasmon loss
low gain
0
100
200
300
Energy Loss (eV)
400
500
EF-FETEM
8
Magnetic
Refrigerators
Photovoltaic Cells
for Infrared
Radiation
Products developed
with industrial
partners
2
Role of IMEM-CNR
3
Superconducting
Power Cables
materials engineering
technology development
Magnetic Sensors
for Electric Vehicles
7
6
X-ray Detectors and
Monochromators
Humidity
Sensors
5
Bioelectronics
and BioSensors
Gas & OV
Sensors
4
prototype manufacturing
Roma, 9 Settembre 2013
1
Thin Film
Photovoltaic
Modules
Scarica

IMEM_VentennaleCNR