Projects
2nd Generation PhD Projects
No. |
Title individual projects |
Main mentor |
Co-mentor |
A8 |
Copper Iron Sulfide (Selenide) Nanocrystals via Cation Exchange for Optoelectronic Application |
Lesnyak (A) |
Murawski (B) |
A9 |
Silicified DNA-nanostructures as versatile tool for the self-assembly of conducting nanomaterials |
Seidel (A) |
Erbe (B) |
A10 |
Enhancing the scope of supracolloidal structures by bottlebrush polymers: Alternatives to DNA origami levers and nanoparticle linkers |
Fery / Roßner (A) |
Rant (B) |
A11 |
Advanced and dynamic nanoelectronics with functionalized microtubules |
Diez (A) |
Erbe (B) |
A12 |
Modeling and optimizing the controlled assembly of responsive polymer-decorated nanoparticles |
Nikoubashman (A) |
Schlicke (B) |
A13 |
Advancing relativistic ab initio methods for predicting structural and spectroscopic properties of heavy-element nanocrystals |
Golze (A) |
Vaynzof (B) |
B8 |
Supracolloidal Transport Vehicles for Protein Sensing with Nanopores |
Rant (B) |
Diez (A) |
B9 |
mRNA sensing for the prostate cancer prognostic analysis |
Baraban (B) |
Fery (A) |
B10 |
Metallic and semiconducting nanostructures based on self-organized materials |
Erbe (B) |
Seidel / Diez (A) |
B11 |
Semiconductor Nanoparticles for Infrared Photomultiplication-Type Photodetectors |
Benduhn (B) |
Lesnyak (A) |
B12 |
Infrared nanocrystal LEDs for biomedical sensing |
Murawski (B) |
Lesnyak (A) |
B13 |
Neuromorphic sensing via 2D-materials-nanoparticle networks |
Cuniberti (B) |
Fery (A) |
B14 |
Engineering the Photonic and Electronic Landscape of Perovskite QD Solar Cells |
Vaynzof (B) |
N.N. |
1st Generation PhD Projects
No. |
Title individual projects |
Main mentor |
Co-mentor |
A1 |
DNA-mediated self-assembly of semiconducting nanomaterials |
Seidel / Vaynzof (A) |
Erbe (B) |
A2 |
Semiconductor nanoparticles for novel transistor structures |
Eychmüller (A) |
Leo (B) |
A3 |
Understanding charge transport in hybrid colloidal nanowires |
Fery (A) |
Erbe (B) |
A4 |
Defined conjugated polymer nanostructures through self-assembly |
Voit (A) |
Baraban (B) |
A5 |
Nanoelectronics with functionalized microtubules |
Diez (A) |
Baraban (B) |
A6 |
In situ and in operando characterization of functional self-assembled nanostructures |
Rellinghaus / Fery (A) |
Mertig (B) |
A7 |
Perovskite / PbX (X=S, Se) core-shell quantum dots for photovoltaic and light-emitting diodes |
Vaynzof (A) |
Leo (B) |
B1 |
Nanoparticles based amplification of field effect transistor based nanobiosensors |
Baraban (B) |
Fery (A) |
B2 |
Electronic circuits by self-organization based on DNA origami molds |
Erbe (B) |
Seidel / Vaynzof (A) |
B3 |
Semiconductor nanoparticles for infrared photodetectors |
Leo (B) |
Eychmüller (A) |
B4 |
Putting DNA in motion - electro-switchable biosurfaces for micro-optical sensing applications |
Mertig (B) |
Fery (A) |
B5 |
New transparent metal electrodes for flexible organic light-emitting diodes |
Murawski (B) |
Eychmüller (A) |
B7 |
Chromatographic Sensors Obtained by Vertical Integration of Nanoparticle Composites |
Schlicke (B) |
Fery (A) |