Contact persons:
Alexander Kloes, Mike Schwarz
Adress:
Giessen, Germany
The Competence Center for Nanotechnology and Photonics at THM University of Applied Sciences (Giessen, Germany) is an application-oriented research center working in the fields of simulation, modeling and design of semiconductor devices, integrated sensor systems, space electronics and neuromorphic computing. The main focus is on compact modeling of emerging nanoelectronic devices and flexible electronics for performance evaluation of new technologies.
Equipment / Facilities
Processing platform
- DIMATIX Material Printer DMP-2831
- SUSS MicroTec Spin Coater LapSpin6 TT
Modelling platform
- Sentaurus TCAD
- QuantumATK
- Cadence Design Framework
- Matlab
Characterization platform
- Waferprober Cascade RF-1
- Keysight B1500 with LCR meter
- AFM Agilent
- LabVIEW software
Expertise
| Main Expertises | ||
|---|---|---|
| Beyond CMOS | Neuromorphic Computing | • Modeling ofmemristor-based ANN with inherent stochastic learning • Modeling and simulation of various synaptic devices • Simulation, modeling and design of ANN • Organic synaptic devices |
| Phonon engineering | X | |
| Small slope switches-NW/TFET/NEMS | • Simulation and modeling of TFET, JL-FET, SB-FET, NW, RFET | |
| Alternative materials-2D layers | x | |
| Novel devices for ultra-low power | x | |
| 1D | x | |
| Quantum Technologies & Very low temperature electronics | x | |
| More Moore | Logic Nanodevices& circuits | • Simulation and modeling of multiple-gate FET, NW-FET • Fast multiscale simulation approach for quantum transport in ultrashort MOSFETs |
| Memories | x | |
| Very low power devices | x | |
| High temperature electronics | x | |
| More than Moore | micro-nano-bio Sensors & Systems | • MEMS • Pressure, Infrared, Temperature Sensors • MEMS process and device modeling |
| Energy Harvesting | x | |
| RF devices & circuits | x | |
| Photonics devices | x | |
| Power devices | x | |
| Flexible electronics | • Simulation and modeling of submicron organic TFT devices • Non-quasistatic modeling of organic TFTs • Modeling variability of organic TFTs • Simulation of organic permeable-base transistors |
|
| Smart systems& Systems design | Smart systems | X |
| Systems design | x |
Research interests
| Research interests | ||
|---|---|---|
| Beyond CMOS | Neuromorphic Computing | • Simulation, modeling and design of ANN • Organic synaptic devices |
| Phonon engineering | X | |
| Small slope switches-NW/TFET/NEMS | • Simulation and modeling of TFET, JL-FET, SB-FET, NW, RFET • Modeling of advanced TFET, NC-FET, RFET |
|
| Alternative materials-2D layers | • Simulation and modeling of 2D material transistors | |
| Novel devices for ultra-low power | x | |
| 1D | x | |
| Quantum Technologies & Very low temperature electronics | x | |
| More Moore | Logic Nanodevices& circuits | • Compact modeling of nanodevices • Merging quantum-based simulation with compact modeling |
| Memories | • Modeling and simulation of ReRAM | |
| Very low power devices | x | |
| High temperature electronics | x | |
| More than Moore | micro-nano-bio Sensors & Systems | • MEMS |
| Energy Harvesting | x | |
| RF devices & circuits | x | |
| Photonics devices | x | |
| Power devices | x | |
| Flexible electronics | • Modeling and simulation of new transistor structures on flexible substrates | |
| Smart systems& Systems design | Smart systems | X |
| Systems design | x |
Minatec – CROMA