18.01.2006
Project Leader
Project Description
Prof. Dr. Jürgen Behm
Prof. Dr. Nicola Hüsing
Prof. Dr. Ute Kaiser
Prof. Dr. Katharina Landfester
Mesoscopically organized nanoparticles: synthesis – characterization - Function
Priv. Doz. Dr. Joachim Bill
Dr. Marko Burghard
Synthesis and property characterization of precursor-derived ceramicsreinforced by functionalized single-wall carbon nanotubes
Dr. Ing. Rainer Oberacker
Si-O-C Pyrolysis Ceramics: Structures, Properties and Optimisation of the Formation Processes based on Molecular Design of Organic / Inorganic Precursors
Priv. Doz. Dr. Helmut Ehrenberg
Prof. Dr. Wolfram Jaegermann
Prof. Dr. Jörg J. Schneider
Hybrid Structures Derived from Phospho-olivines Type LiMPO4 with C Nanofilaments for Li-ion Batteries: Preparation, Properties and Potential Applications
Priv. Doz. Dr. Michael Wark in collaboration withProf. Dr. Jürgen Caro Prof. Dr. Thomas Frauenheim
Functionalised Nanohybrids for Electrochemical Applications
Prof. Dr. -Ing. Holger Hanselka in collaboration with Dr. Jürgen Nuffer
Prof. Dr. Dr. h. c. Ralf Riedel
Ceramic Temperature and Pressure Sensors based on Molecularly Derived SiOC Ceramics by Injection Moulding Process
Prof. Dr. Jochen Gutmann
Prof. Dr. Peter Müller-Buschbaum
Nanostructured Films based on Self-assembled Inorganic/Organic Hybrid Materials
Dr. Mathias Herrmann
Prof. Dr. Stefan Kaskel
Catalytic Active SiC Nanocomposites based on Molecular Precursor Synthesis, Characterisation and Catalytic Tests
Dr. Emanuel Ionescu in collaboration with Prof. Dr. Dr. h.c. Ralf Riedel
Prof. Dr. Hans-Joachim Kleebe
Polymer-derived SiCO/HfO2 and SiCN/HfO2 ceramic nanocomposites for ultrahightemperature applications
Prof. Dr. Rhett Kempe
Dr. Günter Motz
Development of New Precursor Ceramics based on Metal-modified Poysilazanes with a High Potential for Application in Adsorption and Catalysis
Prof. Dr. Edwin Kroke in collabortion with Dr. Marcus Schwarz
Prof. Dr. David Rafaja
(Super) hard Nanocomposites
Prof. Dr. Thomas J. J. Müller
Prof. Dr. Werner R. Thiel
Covalently Assembled Hybrid Materials derived from Oligophenothiazines and Mesoporous Silica: Novel Nanoscaled Solids for Sensors, Electronics and Photonics
Prof. Dr. Micheal Veith
Composite Materials Derived from Molecular Precursors via Tandem CVD and Sol-gel Techniques
Coordination Tasks SPP 1181/2
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