02.Mar.09
Date  lecture no.  color code   Time Schedule (chronological)  internal no. Speaker
 
14.Sept. T1     Phase Formation Described in Terms of General Dynamics Instead of Thermodynamics only  5) Häussler
Mon T2     Energy Landscapes  13) Hoffmann
C1     Do all Stable Molecules (e.g. CH5+) have a Stable Structure? 3) Gerlich
C2     Laser Cooled Coulomb Crystals in Ion Traps 2) Gerlich
C3     Dendrimers: Synthesis, Properties, Reaction Chemistry, and their Use in Network Formation  49) Lang
T3     Slow Relaxation Processes in Complex Systems 14) Hoffmann
15.Sept. T4     Nonlinear Dynamics and Pattern Formation  21) Rumpf
Tue T5     Formation of localized structures from a chaotic background 22) Rumpf
C4     Chemical Formation of Macrocyclic Structures from Simple Building Blocks 41) Banert
C5     Self-assembled Monolayers - from Basic Systems to Applications  48) Lang
M1     Structure Analysis of Soft Materials: X-ray, Solid State NMR, Dilatometry and Polarised Optical  Microscopy 53) Lehmann
M2     Single X-ray Structure Analysis 50) Rueffer
16.Sept. T6     Future Trends in Highly Accurate Ab-initio Methods: From Small Molecular Systems to Hundred of Atoms 39) Auer
Wed T7     Wavefunction Based Ab-initio Methods and Molecular Properties 40) Auer
C6     Magnetic Materials 51) Rueffer
C7     Wetting and Structure Formation on Surfaces 42) Goedel
T8     Synthesis Planning in Solid State Chemistry - the Energy Landscape Concept 61) Jansen
T9     Synthesis Planning in Solid State Chemistry - the Energy Landscape Concept 62) Jansen
P1     From Quarks to Protons: Origin of Complex Species in the Big Bang, and in Laboratory Experiments (public) 57) Stock
17.Sept. P1     Hadron Formation as a Quantum Mechanical Tunnelling Effect 58) Stock
Thu E1     Surface Enhanced Raman Spectroscopy and Cyclic Voltametry: a Set of Tools for Experimental Studies of SAMs 47) Holze
E2     Simulations of Adsorptions - the Growth of Layered Structures on Surfaces    27) Schreiber
N1     From Molecules to Clusters – how does a Nanoparticle Form? 55) Mehring
N2     Formation of Nanostructures Using Weak Supramolecular Interactions 52) Lehmann
N3     Energy- and Charge-transfer in Self-aggregated Supramolecular Structures 35) Zenkevich
18.Sept. N4     Structures of Carbon Nanoparticles at Very High Temperatures: Innovative Trapping Experiments 4) Gerlich
Fri N5     Dynamic Processes in Self-aggregated Quantum Dot – Molecular Heterostructures 36) Zenkevich
M4     Structural Exploration in Real Space 10) Hietschold
21.Sept. B1     Structure Formation at Early Stages as an Effect of Self Organizing Resonances Between Global Subsystems    6) Häussler 
Mon B2     Spherical Periodicity as a Unique Structural Feature in Disordered Media  7) Häussler
B3     On a Modification of the Hume-Rothery Rules for Phase Stability 8) Stiehler, Häussler
B4     Short-range and Medium-range Scaled Ordering Phenomena in Multicomponent Chalcogenide Glasses 16) Hoyer
T10     Valence Electrons in Condensed Matter: How Interference Acts on Phase Stability and Electronic Transport 29) Solbrig
T11     On the Medium-range Order in Alloys of Aluminum with Transition Metals 30) Solbrig
22.Sept. T12     Structure of Quasicrystals – the Unknown World Between Disorder and Periodicity  25) Schreiber
Tue B5     Self-assembly of Thin Films of Block Copolymers   17) Magerle
B6     Three-dimensional Microstructure and Micromechanics of Elastomeric Polypropylene 18) Magerle
B7     Heterostructures of Organic Semiconductors with Transition Metals: Magnetic and Magneto-optical Properties 28) Salvan
E3     Extracting Interatomic Pairpotentials from Structural Data and Simulating the Static Structure                         9) Tonert, Häussler
E4     Scanning-Force Microscopy of Thin Films of Block Copolymers 19) Magerle
23.Sept. M3     Diffraction- and XAFS-methods for Exploring the Structure of Non-crystalline Forms of Matter 15) Hoyer
Wed E5     Scanning-Force Microscopy of Polymer Crystallisation 20) Magerle
S1     Surface- and Adsorbate Structures (Introduction) 11) Hietschold
N6     Stranski-Krastanov Growth of Semiconductor Quantum Dots 37) Zahn
M4     Structural Exploration in Real Space 10) Hietschold
S2     Models of Adsorption – the Growth of Layered Structures on Surfaces 26) Schreiber
S3     Orientation of Liquid Crystals on Surfaces 54) Lehmann
P2     All from Nothing: the structuring of our Universe (public) 56) White
24.Sept. S4     Organisation of Liquid Crystals and Liquids Close to Surfaces 33) Borcyskowski
Thu S5     Thermodynamic and Optical Properties of Nanocrystal – Surfactant Formation Processes 34) Borcyskowski
S6     Self-assembled  Monolayers: from Formation to Application 44) Holze
S7     Self-assembled Monolayers on Electrode Surfaces: Structure, Characterization, and Properties 45) Holze
S8     Self-assembly at the Solid/Liquid Interface 43) Holze
M5     Description of Physical Vapour Deposited Thin Films Using Structure-zone Models 24) Richter
 
25.Sept. S9     Structure Formation During Growth of Superhard Thin Films by Energetic Condensation  23) Richter
Fri S10     Growth of Highly Ordered Organic Thin Films 38) Zahn
S11     Selfassembling of Organic and Molecular Monolayers on Crystalline Substrates 12) Hietschold
S12     AFM generated  Siliconoxyde Structures Followed by Selfassembly of Organic and Semiconductor Nanocrystals 32) Graaf
S13     Magnetic Nanostructures Fabricated by Self-assembled Particle Monolayers 1) Albrecht
M6     Tools and Methods in Studies of Self-assembled Monolayers at the Metal-Solution Interface 46) Holze