Press Releases / Pressemitteilungen

Hermetically sealed semi-conductors

New encapsulation technique protects electronic properties of sensitive materials

Published on Tue, 28 Jan 2020 in PRESS RELEASES

[Press release from the Helmholtz Centre Dresden-Rossendorf (HZDR) dated 28 January 2020. Dr. Artur Erbe is a cfaed associated member. German version via read more.]

Tomorrow’s electronics are getting ever smaller. Researchers are thus searching for tiny components that function reliably in increasingly narrow configurations. Promising elements include the chemical compounds indium selenide (InSe) and gallium selenide (GaSe). In the form of ultra-thin layers, they form two-dimensional (2D) semi-conductors. But, so far, they have hardly been used because they degrade when they get in contact with air during manufacturing. Now, a new technique allows the sensitive material to be integrated in electronic components without losing its desired properties. The method, which has been described in the journal ACS Applied Materials and Interfaces (DOI: 10.1021/acsami.9b13442), was developed by Himani Arora, a doctoral candidate of physics at the Helmholtz-Zentrum Dresden-Rossendorf (HZDR).

Chemical circuits for the molecular diagnosis and treatment of previously incurable diseases

Published on Mon, 13 Jan 2020 in PRESS RELEASES

PhD student Anthony Beck presents the chemical chip from TU Dresden — PhD student Anthony Beck, co-developer of the technology, holds a chemical circuit with coloured analysis media. On the screen in the background is a microscopic image of one of the chemical transistors of the chemical IC.

[Deutsche Version unter "read more"]

As part of the German government's High-Tech-Strategy 2025, the Federal Ministry of Education and Research (BMBF) is funding an interdisciplinary research group that aims to use an innovative circuit technology to solve a central problem of genetic investigation of human single cells. Medical professionals hope that such research will drastically improve the diagnosis and therapy of many serious diseases and enable the treatment of or even cure for cancer and immune diseases, for which there are currently no suitable methods available.

pinMOS: Novel Memory Device Combining OLED and Insulator Can Be Written on and Read out Optically or Electrically

Published on Fri, 22 Nov 2019 in PRESS RELEASES

figure 1: pinMOS memcapacitor - scheme. author: Yichu Zheng — The pinMOS memory - an organic semiconductor device resulting from the combination of an OLED and a capacitor. It has the characteristics of a Memcapacitor, interacts with light and can be written and erased step by step. (C) Yichu Zheng.

[Deutsche Version unter "read more"]

Scientists of the Dresden Integrated Center for Applied Physics and Photonic Materials (IAPP) and the Center for Advancing Electronics Dresden (cfaed) at TU Dresden have developed a novel storage technology based on the combination of an organic light-emitting diode (OLED) and an insulator. This device allows reading the stored information optically as well as electrically. Moreover, the information can be added in portions - thus several storage states can be mapped in one device. The results have now been published in the renowned journal "Advanced Functional Materials".

Another novelty was related to the measurements in the test series: They were carried out exclusively using the innovative "SweepMe!” measuring software, which was developed by an IAPP / cfaed start-up of the same name.

Bottom-up Synthesis of Crystalline 2D Polymers: A Dream Finally Comes True

Center for Advancing Electronics Dresden (cfaed), Press Release 24 September, 2019

Published on Tue, 24 Sep 2019 in PRESS RELEASES

Left: Schematic illustration for the SMAIS method for 2D polymer synthesis (by Marc Hermann, TRICKLABOR). Right: High-resolution transmission electron microscopic image for 2D polyimide (by Dr. Haoyuan Qi, University of Ulm)

[Deutsche Version unter "read more"]

Scientists at the Center for Advancing Electronics Dresden (cfaed) at TU Dresden have succeeded in synthesizing sheet-like 2D polymers by a bottom-up process for the first time. A novel synthetic reaction route was developed for this purpose. The 2D polymers consist of only a few single atomic layers and, due to their very special properties, are a promising material for use in electronic components and systems of a new generation. The research result is a collaborative work of several groups at TU Dresden and the Ulm University and was published this week in two related articles in the scientific journals "Nature Chemistry" and "Nature Communications".

Fluctuation-induced Distributed Resonances in Oscillatory Networks and Power Grids

Press Release - cfaed, 31 July, 2019

Published on Wed, 31 Jul 2019 in PRESS RELEASES

[Deutsche Version unter "read more"]

Scientists from the Center for Advancing Electronics Dresden (cfaed) at TU Dresden, together with partners from other German universities and research institutions, have investigated how highly complex dynamical systems react to external influences using the example of power grids. The results contribute to an understanding of the processes that take place, for example, during the feeding of weather-dependent and thus strongly fluctuating renewable energies into the power grids. However, they can be transferred to various types of dynamical networks. The study has been published in the journal "Science Advances" on 31 July, 2019.