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Prof. Bernd Smarsly

CRC 1585 MultiTrans Scientific colloquium

Prof. Bernd Smarsly from Justus-Liebig-University Giessen will give the lecture “Non-graphitic carbon materials: dark matter with bright future?”. Monday, 9th of December at 12:15 in H33 (INF/AI)   ...more

One PhD position (m/f/d) for ionic and electronic transport in battery electrode materials

One PhD position (m/f/d) for ionic and electronic transport in battery electrode materials

We would like to announce one PhD position (m/f/d) for ionic and electronic transport in battery electrode materials. Application deadline: 30 October 2024  ...more

A New publication

NEW CRC MultiTrans publication

"Our material shows excellent and fast switching properties for the formation of thermal gradients, which can be applied to other materials, such as colloidal crystal thin films"   ...more

A New publication

NEW CRC MultiTrans publication

Check our new paper to find more about the behavior of bulk water at supercooled temperatures: Complexity of confined water vitrification and its glass transition temperature  ...more

Abstract

NEW CRC MultiTrans publication

To Stop or to Shuttle Halides? In our new publication in ASC Energy Letters we investigate the Role of an Ionic Liquid in Thermal Halide Mixing of Hybrid Perovskites.  ...more

Accelerated stress testing using a mixed load cycling and start-up/shut-down protocol

NEW CRC MultiTrans publication

Our article by R. Loukrakpam et al. published in Journal of Power Sources presents challenges and limitations of accelerated stress testing in gas diffusion electrode half-cell set-ups in comparison to model thin film electrodes and full fuel cells.  ...more

The photo of a) PI/PAN@Co2þ sponge and i) PI/PAN@ZIF-67 sponge, b–d) SEM images of PI/PAN@Co2þ sponge, e–h) EDS spectrum of PI/PAN@Co2þ sponge, and j–l) SEM images of PI/PAN@ZIF-67 sponge

NEW CRC MultiTrans publication

Our recent article by Y. Du et al. published in Advanced Energy & Sustainability Research presents an innovative methods to increase the loading capacity and the accessibility of metal–organic framework (MOF) active sites in monolithic materials.   ...more

CRC 1585: ​Structured functional materials for multiple transport in nanoscale confinements ​(MultiTrans)

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