Navigation

Jump to main content
DFG Research Unit 1154 "Towards Molecular Spintronics"
Projects

DFG Research Unit 1154 „Towards Molecular Spintronics“

Projects:

Project Partners Institution
SP1
  • Part I: Thin films of redox-active high-spin molecules
  • Part II: Monolayers of redox-active high-spin molecules on conducting and ferromagnetic metals: Control of selfassembly and integration into devices
Kersting UL
SP2
  • Part I:Preparation of spin coated thin films and self-assembled monolayers of magnetic transition metal complexes
  • Part II: From the preparation of monomolecular layers to thin films of magnetic transition metal complexes towards their integration into spintronic devices
Rüffer, Lang TUC
SP3
  • Part I + II: Electronic structure, transport, and collective effects in molecular layered systems
Kortus,
Timm
TUF,
TUD
SP4
  • Part I + II: Electron spin resonance and magnetic studies
Kataev,
Klingeler,
Büchner
IFW,
UH
IFW/TUD
SP5
  • Part I: Spin dynamics in single molecules and thin films studied by nuclear probe spectroscopy
Klauss TUD
SP6
  • Part I + II: Scanning tunneling microscopy and spectroscopy of magnetic molecules
Hess,
Hietschold
IFW,
TUC
SP7
  • Part I: Spectroscopic studies of magnetic molecular materials
  • Part II: Spectroscopic studies of magnetic molecular materials and their interfaces
Knupfer,
Zahn
IFW,
TUC
SP8
  • Part I + II:From the preparation of molecular layers and their (magneto-)optical investigation towards laterally stacked devices
Salvan, Zahn, Hiller TUC
SP9
  • Part I: Transport through spin polarized semiconductor/molecule/semiconductor tunnel junctions
  • Part II: Vertical magneto-resistive devices made from hybrid metal/molecules/metal multi-layer systems
Schmidt,
Hess
IFW/TUC
IFW

 

SP1. | SP2. | SP3. | SP4. | SP5. | SP6. | SP7. | SP8. | SP9. | [close]

SP8: From the preparation of molecular layers and their (magneto-)optical investigation towards laterally stacked devices

The performance of devices based on molecular materials is not only determined by intrinsic properties of the molecular building blocks. The molecular orientation, the film morphology as well as the nature of the interfaces are crucial for the device performance. By probing vibrations and optical transitions, (magneto-)optical spectroscopic techniques provide excellent tools to explore molecular properties and film properties.

In this project thin films of magnetic molecules will be deposited by spin and dip coating as well as by organic molecular beam deposition onto flat substrates and their properties will be investigated by optical and magneto-optical spectroscopic methods. The knowledge on the film properties will be transferred to the fabrication of laterally stacked spintronic devices on substrates structured by semiconductor processing (lithography, Si patterning, oxide and metal deposition).