Young Investigators Workshop of the Helmholtz Virtual Institute "Dynamic Pathways in Multidimensional Landscapes"
The Virtual Institute explores the governing principles of material’s function in an internationally highly visible centre of excellence. From now on, young scientists (PhD students, master students, and young postdocs) are invited to participate in the Young Investigators Workshop that will take place from 23rd to 28th April 2017 at the Eibsee-Hotel in the Bavarian Alps. It focuses on the research topics of the Helmholtz Virtual Institute 419 and includes both experimental and theoretical projects on molecular and chemical dynamics, phase transitions and switching as well as fundamental light-matter interaction.
We strongly encourage young scientists (PhD students, master students, and young postdocs) who work in this field to participate in this workshop, and to present and discuss their results in an informal atmosphere.
For eligible young researchers this Virtual Institute covers costs for accommodation, board, and travel costs according to VI regulations.
Workshop programme
Sunday 23rd April: arrival, dinner/get together, evening talk.
Monday – Thursday: morning session talks - outdoor workshop – afternoon session talks.
Friday 28th April: departure.
Each participant is asked to give a talk (duration 15 + 5 minutes discussion).
Date and Location
The Young Investigators Workshop takes place from 23rd to 28th April 2017 at the Eibsee-Hotel in the Bavarian Alps near Grainau. The Eibsee-Hotel has direct access to ski and hiking areas.
Application deadline is on Febuary 10th. Please apply via email by sending a short CV and an abstract (about 250 words) to grunewald@helmholtz-berlin.de. The number of available places is limited.
- Electrocatalysis with dual functionality – an overviewHybrid electrocatalysts can produce green hydrogen, for example, and valuable organic compounds simultaneously. This promises economically viable applications. However, the complex catalytic reactions involved in producing organic compounds are not yet fully understood. Modern X-ray methods at synchrotron sources such as BESSY II, enable catalyst materials and the reactions occurring on their surfaces to be analysed in real time, in situ and under real operating conditions. This provides insights that can be used for targeted optimisation. A team has now published an overview of the current state of knowledge in Nature Reviews Chemistry.
- Successful master's degree in IR thermography on solar facadesWe are delighted to congratulate our student employee Luca Raschke on successfully completing her Master's degree in Renewable Energies at the Hochschule für Technik und Wirtschaft Berlin - and with distinction!
- BESSY II: Phosphorus chains – a 1D material with 1D electronic propertiesFor the first time, a team at BESSY II has succeeded in demonstrating the one-dimensional electronic properties in phosphorus. The samples consisted of short chains of phosphorus atoms that self-organise at specific angles on a silver substrate. Through sophisticated analysis, the team was able to disentangle the contributions of these differently aligned chains. This revealed that the electronic properties of each chain are indeed one-dimensional. Calculations predict an exciting phase transition to be expected as soon as these chains are more closely packed. While material consisting of individual chains with longer distances is semiconducting, a very dense chain structure would be metallic.