Nano-Microsystems for Life Sciences
Healthcare of tomorrow will change dramatically driven by global processes, such as technological advances and the digital revolution. One of the exciting possibilities to establish new patient-care standards relies on the new ultrasensitive diagnostics seamlessly integrated into gadgets, such as point-of-care system, or clinically relevant medical tools to provide maximally personalized assistance and treatment. Our mission is the development of smart miniaturized biosensing devices and systems using nanoscale materials as building blocks and advanced microfluidics to find new routes and parameters that can be employed for the characterization of biomolecules and cells as well as biochemical reactions or processes.
Our interdisciplinary research group is initiated and performed at two institutes: the Institute of Radiopharmaceutical Cancer Research and the Institute of Ion Beam Physics and Materials Research.
Involved departments and internal cooperations:
Projects and support
- DFG project: Lab-on-chip systems for multiplexed and multiparametric biochemical assays
- DFG SPP 1726 project: Artificial nanomachines in external potentials
- Else-Kröner-Fresenius Center for Digital Health project: Smart catheters for in-vivo monitoring of blood parameters
- Our group is supported by the High Potential Program at the Helmholtz-Zentrum Dresden-Rossendorf especially by the Institute of Radiopharmaceutical Cancer Research and the Institute of Ion Beam Physics and Materials Research
News & Events
--- 2020 ---
- Our article ‘Electrochemical detection of ascorbic acid in artificial sweat using flexible alginate/CuO modified electrode‘ has been accepted in Microchimica Acta.
- Our article ‘Nanocytometer for smart analysis of peripheral blood and acute myeloid leukemia: a pilot study‘ by Julian Schütt, Diana Sandoval Bojorquez et al., has been accepted in Nano Letters. Congratulations!
- Manuscript of Tao Huang et al. on the study of the inverse solidification induced by active particles are highlighted with a front cover page in Advanced Functional Materials. (to wait until publishing)
- We are happy to welcome Dr. Marvin Barahona to join us as PostDoc since 1th of August 2020. He will focus on the development of the in-vivo sensors integrated onto the surface of catheters and the development of electronic platforms for monitoring of biological signals.
- Our article ‘Inverse solidification induced by active Janus particle‘ by Tao Huang et al., has been accepted for publication in Advanced Functional Materials. Congratulations Tao!
- Our paper of Tao Huang et al. on the study of the exclusion behavior in active soft matter systems is highlighted with a cover page of Langmuir. This work is part of the Special Issue on Advances in Active Materials. T. Huang, S. Gobeil, X. Wang, V. Misko, F. Nori, W. De Malsche, J. Fassbender, D. Makarov, G. Cuniberti, and L. Baraban 'Anisotropic exclusion effect between photocatalytic Ag/AgCl Janus particles and passive beads in a dense colloidal matrix' Langmuir 36, 7091 (2020).
- Our article ‘Intrinsic plasticity of silicon nanowire neurotransistors for dynamic memory and learning functions‘ is highlighted in multiple news outlets (see summary below): https://www.nature.com/articles/s41928-020-0412-1/metrics
- Our article ‘Intrinsic plasticity of silicon nanowire neurotransistors for dynamic memory and learning functions‘ by Eunhye Baek et al., has been published in Nature Electronics. Congratulations Eunhye! Baek, E., Das, N.R., Cannistraci, C.V. et al. Intrinsic plasticity of silicon nanowire neurotransistors for dynamic memory and learning functions. Nat Electron (2020). https://doi.org/10.1038/s41928-020-0412-1