Research Group Leader
Prof. Dr. Alexey Tarasov
Professor of Biomedical Engineering
Head of Nanoelectronics and Biosensing Lab
Hochschule Kaiserslautern
University of Applied Sciences
Amerikastraße 1
66482 Zweibrücken, Germany
Office H129
+49 631 3724-5388
alexey.tarasov@hs-kl.de
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Dates - winter semester 2026/27
Tuesday 01.09.2026 Start of winter semester
Monday 28.09.2026 Start of lectures
Saturday 03.10.2026 No lectures Holiday
Saturday 01.11.2026 No lectures Holiday
Wednesday - Saturday 23.12.2026 - 02.01.2027 No lectures Christmas and New Year
Saturday 30.01.2027 End of lectures
Sunday 28.02.2027 En
Finished Research Projects
PriMa 3D-printed magnetic circuits for application in power electronic circuits https://www.rlp-forschung.de/public/people/Sven_Urschel/research_projects/21401 Motor Emulation Replica of electrical maschines with power electronics
About
Chandan Singh is a Postdoctoral Researcher in the Nanoelectronics & Biosensing Lab.
His research focuses on emerging 2D materials, particularly MXenes, for electrochemical biosensing of clinically relevant biomarkers. It aims to improve oxidation stability while enabling highly sensitive and selective sensing platforms.
The work
Publications of professors of the research focus area IMS
2026
Nguyen Thi, Tinh; Schapelhouman, Dennis; Fischer, Katharina; Chen, Jia‐Xuan; Dejung, Mario; Kielisch, Fridolin; Varga, Julia; Piepgras, Johannes; Ahn, Matthew; Tüscher, Oliver; Baumann, Peter; Schick, Sandra & Endres, Kristina. (2026). Interplay of the ENS and Microbiota With Mu
Projects in Research Area IMS
MiNaMag Micro- and nanostructured hard magnetic materials and components for microtechnological applications
Contact: Prof. Dr. Monika Saumer
Project duration: 2021 – 2026 t3://page?uid=6136 ODPfalz-II Offene Digitalisierungsallianz Pfalz II
Contact: Prof. Dr. med. Karl - Herbert Schäfer
Project dura
MeXenz - MXen-based electrochemical biosensors for the early, noninvasive differential diagnosis of dementia
MeXenz develops MXene-based electrochemical biosensors for the early, non-invasive differential diagnosis of dementia. Highly conductive MXenes, carbon nanotubes and antifouling surface chemistries are combined to enable sensitive multiplex
MeXenz - MXen-based electrochemical biosensors for the early, noninvasive differential diagnosis of dementia
MeXenz develops MXene-based electrochemical biosensors for the early, non-invasive differential diagnosis of dementia. Highly conductive MXenes, carbon nanotubes and antifouling surface chemistries are combined to enable sensitive multiplex