Dresden
Technology Portal

Your access to research infrastructure and know-how

Chair for Solid-State Electronics (FKE) (Professorship)

Parent Units:
Technische Universität Dresden (TUD)
German name: "Professur für Festkörperelektronik (FKE)".

Contact

web:	https://tu-dresden.de/ing/elektrotechnik/ife/forschung/forschungsfelder
email:	e-mail
phone:	+49 (0)351 463-32077
fax:	+49 (0)351 463-32320
postal address:	Technische Universität Dresden (TUD), Chair for Solid-State Electronics (FKE), 01062 Dresden, Germany
office address:	Technische Universität Dresden (TUD), Chair for Solid-State Electronics (FKE), Mommsenstraße 15 (Günther-Landgraf-Bau 7-E01B), 01069 Dresden, Germany
partner:	Technische Universität Dresden

Expertise

Our main research topics

Infrared detectors and infrared measurement technology	• Sensor simulation and design • Fabrication of pyroelectric thin films • Sensor technology and material characterization • Measurement technology for IR single- and multi-element detectors • Sensor applications in radiation pyrometry, thermal imaging, gas analysis and textile chemistry • Infrared emitters and measurement technology • Radiation-absorbing layers
Piezoresistive sensors	• Sensor simulation and sensor design • Fabrication and characterization of pH-value-, solvent- and glucose-sensitive hydrogel films • Measurement technology • Application to measurement of humidity, pH-value, solvent and glucose concentration as well as for protein detection • Powerless sensor switches (BIZEPS – Bistable Zero-Power Sensors)
Sensoric Polymers	• Polymer composites comprising electrically conducting particles for temperature sensors and strain gauges • Hydrogels with pH-, temperature-, ion- and concentration-dependent swelling behavior • Imprint and replica plating
Ultrasound Technology	• Simulation of sound fields with complex geometry • Transducer optimization • Development of ultrasound measurement techniques using information from the sound field (non-scanning curvature measurement, simultaneous measurements of velocity and distance, enhancement of resolution) • Array technology
Modeling and simulation	• Component and system models • Network modeling, finite element and finite network modeling • Coupled simulation • Application to sensorics
Large-area deposition of nanocomposites with defined properties	• Fabrication of nanoparticles by means of gas phase condensation in modified vacuum equipment • Investigation of hollow cathode technology (gas flow sputtering) for fabrication of nanoparticles by means of gas phase condensation • Embedding of nanoparticles into thin films by combination of gas phase condensation with other deposition techniques: RF-PECVD (13.56 and 60 MHz), reactive magnetron sputtering • Nanoparticle materials consisting of metals, alloys and their reactive compounds in matrix materials of inorganic compounds (oxides, nitrides) or functional polymer coatings • Applications: Optical absorbers, antibacterial coatings of filtration membranes, electrically conducting percolation networks of nanoparticles for sensoric coatings

instruments

View instruments (25)

Affiliations

Parent Units

name	type	actions
Institute of Solid-State Electronics (IFE)	Institute	view

Last Update

Last updated at: 2016-10-17 07:53