Press Releases / Pressemitteilungen

Festive inauguration of the new building for the Center for Advancing Electronics Dresden (cfaed)

Published on Fri, 17 Aug 2018 in PRESS RELEASES

Handing over the "key" for the new building :-)

Today, Dr. Matthias Haß, Minister of Finance, and Dr. Eva-Maria Stange, Minister of Science, handed over the keys to the cfaed Cluster of Excellence facilities in the Barkhausen building to the Rector of TU Dresden, Prof. Hans Müller-Steinhagen. The opening of the new TU Dresden building enables the cluster to bring together a large number of researchers in one location.
The design of the office spaces and the highly sophisticated laboratories not only creates a single space for collaborative research, but the new building itself is located in the immediate vicinity of the Andreas-Pfitzmann building, the Hermann-Krone building and the adjacent institutes and departments that are of crucial importance to the cfaed. The Faculty of Electrical and Computer Engineering, the Faculty of Computer Science and the Faculty of Mechanical Science and Engineering as well as the School of Science have their main facilities right next door. Interdisciplinary research requires physical proximity and effective communication: this is precisely what the new building offers to cfaed.

Muscle Growth in the Computer: International Team Wants to Unravel the Formation of Myofibrils

Published on Wed, 13 Jun 2018 in PRESS RELEASES

Dr. Benjamin Friedrich, Research Group Leader Biological Algorithms Group. Photo: Katharina Knaut

[Deutsche Version unter "read more"]

cfaed Group Leader, together with two other international scientists, acquires "Human Frontier Science Program" funding for investigation of myofibrils

How the bicep tenses is no longer a secret. In every muscle cell there are so-called myofibrils, which contract at the same time. They are responsible for muscle movement. Each of these fibrils represents an exact pattern of hundreds of identical units consisting of different protein molecules. However, it is not yet understood how these individual building blocks arrange themselves into highly regular patterns during embryonic development or healing processes. An interdisciplinary team involving the physicist Dr. Benjamin Friedrich (Center for Advancing Electronics Dresden - cfaed, TU Dresden) has now acquired a research contract from the "Human Frontier Science Program" to investigate this question.

Failures in Power Grids: Dynamically Induced Cascades

Published on Fri, 25 May 2018 in PRESS RELEASES

[Deutsche Version unter "read more"]

A reliable functioning of technical infrastructure networks is essential for our modern, high-tech society. Cascading failures, i.e. chain reactions of failures of different infrastructures, are the cause of many failures of entire networks, e.g. large parts of the European power grids. Although cascading failures are usually influenced by network-wide nonlinear dynamics between the individual failures, their modelling has so far concentrated primarily on the analysis of sequences of failure events of individual infrastructures - however, the dynamics between these events have not been taken into account.

In an article now published by Nature Communications, an analysis scheme is presented which takes into account the event-based character of the chain reaction as well as the specific network dynamic influences.

Stagediving with biomolecules improves optical microscopy

Published on Mon, 30 Apr 2018 in PRESS RELEASES

nanotechnology - stagediving with molecules

Press release from TU Dresden (B CUBE - Center for Molecular Bioengineering) and Julius-Maximilians-Universität Würzburg

Physicists from Dresden and Würzburg have developed a novel method for optical microscopy. Using biological motors and single quantum dots, they acquire ultra-high-resolution images.

The resolution of conventional optical microscopy is limited by the fundamental physical principle of diffraction to about one half of the wavelength of the light: If the distance between two objects is smaller than this so-called "diffraction limit", they can no longer be visually separated - their image appears "blurred ". To acquire optical images at the scale of few nanometers, this is clearly not sufficient.

Ausgezeichnet: Neue Halbleiterpolymere für gedruckte Elektronikbauelemente

Herausragende Promotionsarbeit zur Polymersynthese am IPF Dresden ausgezeichnet

Published on Thu, 12 Apr 2018 in PRESS RELEASES

portrait photo dr. tim erdmann — Dr. Tim Erdmann / Foto: Frank Grätz (blend3)

Pressemitteilung des Leibniz-Institut für Polymerforschung Dresden e. V. (IPF) vom 12.4.2018

Auf seinem Jahresempfang am 12. April 2018 verleiht das Leibniz-Institut für Polymerforschung Dresden e. V. (IPF) erneut Preise für herausragende Graduierungsarbeiten. Mit dem Doktorandenpreis des Vereins zur Förderung des IPF wird Herr Dr. Tim Erdmann für seine Dissertation „High charge carrier mobility polymers for organic transistors“ ausgezeichnet. In der Arbeit, die unter Betreuung von Frau Professor Voit am IPF und eingebunden in den Exzellenzcluster Center for Advancing Electronics Dresden (cfaed) entstand und an der Fakultät (jetzt Bereich) für Mathematik und Naturwissenschaften der Technischen Universität Dresden verteidigt wurde, beschäftigte er sich mit der Entwicklung von neuen polymeren Halbleitern.