Project title:
The Effect of Oxygen Vacancies and Crystal Symmetry on Induced Piezoelectricity and Pyroelectricity in Centrosymmetric Oxides
alespa@dtu.dk
Design and properties of artificial mesoscopic semiconductor lattices
giuliam@dtu.dk
Modelling of nanoscale heat and charge transport
vicros@dtu.dk
Thermoelectric transport using Micro four point probe (M4PP)
neetura@dtu.dk
Hybrid 3D printing of ferroelectric super-structures for electromechanical energy systems
kyridi@dtu.dk
The Next Generation of Magnetoresistive Materials
thipom@dtu.dk
Topotactic phase transition of SrFeOx via oxygen defects and strain
yichwu@dtu.dk
Powering the Internet of Things with ambient solutions: Thermoelectricity
canulo@dtu.dk
All-Solid-State-Battery Thin Films on Silicon
jixich@dtu.dk
Improving the Efficiency and Dynamic Performance of Metal-Supported Solid Oxide Fuel Cells by Additive Manufacturing
zhizho@dtu.dk
Nanostructured electro-chemo-mechanical energy harvesters for the Internet of Things
acberg@dtu.dk
3D Printing of Piezoelectric Ceramics with Tailored Grain Orientation
mamobin@dtu.dk
Spin‐charge conversion phenomena in two-dimensional electron gases at oxide interfaces
thvidol@dtu.dk
Project title :
Nano Engineered Solid State Ionic Metal Oxides for Near-Room Temperature Oxygen Conductivity- NEMO
rbaby@dtu.dk
Freestanding oxide membranes for ultra-sensitive bio-magnetometers
eribran@dtu.dk
Design, synthesis and properties of large-scale nanowire lattices
cenpe@dtu.dk
Investigating the electronic properties of LAO/STO free-standing micromembranes
ckich@dtu.dk
Freestanding oxide films for spin-charge conversion phenomena
andales@dtu.dk