People

LAMPSe 2020
LAMPSe 2020
TU Graz, Greco Francesco © Lunghammer - TU Graz

Francesco Greco

Dr. Dott.
Assistant Professor
 
Institute for Solid State Physics
TU Graz
Petersgasse 16
8010 Graz
Austria
Tel. +43 316 873 8471
Fax. +43 316 873 108471
francesco.greco@tugraz.at

PhD Students

Alexander Dallinger TU Graz

Alexander Dallinger

Dipl. Ing.
 
Tel. +43 316 873 8979
 
Projects: 
 
Kirill Keller TU Graz

Kirill Keller

MSc

Tel. +43 316 873 8979
keller@tugraz.at

Recent projects:

  • Nanoceria/PEDOT:PSS composites with enhanced electrochemical properties via inkjet printing for smart biointerfaces

Former Members

Master Students

Alexander Dallinger TU Graz

Alexander Dallinger

Ultrathin, adhesive skin-contact electrodes

Bernhard Burtscher

Inkjet printed organic photodiode on an ultrathin, commercial, conformal and transferrable polymer substrate

Hana Hampel TU Graz

Hana Hampel

Investigation of morphology and composition of Laser Induced Graphene from polymer precursors

Alexandra Serebrennikova TU Graz

Alexandra Serebrennikova

Biocompatible supercapacitors based on laser induced graphene for wearable applications

Stella Drewes

Composites of Liquid Crystal Elastomers and Laser Induced Graphene for application as soft actuators

Felix Steinwender

Felix Steinwender

 Scribing of Laser Induced Graphene (LIG) in inert atmosphere. Investigation on synthesis, structure, properties.

Bachelor Students

Sarah Krogger

Evaluation of thermistor behaviour of Laser Induced Graphene Materials

Fabian Gasser

NTC Thermistor Behaviour of Laser-Induced Graphene

Matthias Gritzner

Tunable Wettability of Laser-Induced Graphene

David Grafinger

Electro-Mechanical Investigation of Materials for Stretchable Conductors based on Laser Induced Graphene (LIG)

Benedikt Markus Kraxberger

Laser-Induced Graphene (LIG)-based Supercapacitors: Investigation of Material Properties and Assembling Strategies

Michael Gobald

Testing of a materials tensile testing device for the investigation of the mechanical and conductive properties of stretchable conductors