Direkt zum Inhalt
 
 
emotio_sfb_1083.jpg
 
  Startseite  
 
Sie sind hier:» Universität » SFB 1083 » News » Nachrichten

Nachrichten  RSS-Feed

18.03.2021: Vibrational Frequency Used as Internal Clock Reference to Access Molecule-Metal Charge-Transfer Times – Publication by A3 (Jakob)
Peter Jakob and Sebastian Thussing derived ultrafast charge-transfer times at molecule-metal interfaces using the vibrational oscillation period as an internal ...

08.03.2021: Quantitative Characterization of Nanometer-Scale Electric Fields via Momentum-Resolved STEM– Publication by A5 (Volz)
Andreas Beyer and coworkers achieved the determination and spatial resolution of electric fields at interfaces with the transmission electron microscope.

19.02.2021: Tracing orbital images on ultrafast time scales – Publication by B6 (Höfer/Wallauer) and A12 (Tautz/Bocquet/Kumpf) in Science
Robert Wallauer and coworkers combined a high harmonic laser source with an electron momentum microscope to record orbital images of the charge transfer at an ...

21.01.2021: Engineering of TMDC-OSC Hybrid Interfaces: The Thermodynamics of Unitary and Mixed Acene Monolayers on MoS2 – Publication by A2 (Witte) and A4 (Gottfried)
In a new publication in Chemical Science, projects A2 (Witte) and A4 (Gottfried) report on the intricate desorption characteristics of pentacene (PEN) and ...

13.01.2021: Prepare with Care: Low Contact Resistance of Pentacene Field-Effect Transistors with Clean and Oxidized Gold Electrodes - Publication by A2 (Witte)
In a new publication in Organic Electronics, project A2 (Witte) reports on the establishment of a complete high vacuum-based manufacturing and electronic ...

16.12.2020: Prof. Dr. F.S. Tautz won a price at „Falling Walls - The World Science Summit“
At „Falling Walls - The World Science Summit“ during the Berlin Science Week, Prof. Dr. F.S. Tautz, PI of SFB project A12 (Tautz/Bocquet/Kumpf), was ...

09.12.2020: Super-resolution lightwave tomography of electronic bands in quantum materials – Publication by B4
The researchers developed a method, which was published in Science, to reconstruct the band structure of quantum materials with very high precision

Zuletzt aktualisiert: 27.07.2021

 
 
 
Philipps-Universität Marburg

Sonderforschungsbereich 1083, Philipps-Universität Marburg, Renthof 5, 35032 Marburg, Germany
Tel. +49 6421 28-24223, Fax +49 6421 28-24218, E-Mail: info@uni-marburg.de

URL dieser Seite: https://www.uni-marburg.de/sfb1083/aktuelles/news

Impressum | Datenschutz