Project
"Synthetic Carbon Allotropes"
Speaker: Prof. Dr. Andreas Hirsch
Participating Department Institutions:
Department of Chemistry & Pharmacy
- Chair of Organic Chemistry I
A4 - Tykwinski, A5 - Kivala
- Chair of Organic Chemistry II
A1 - Hirsch, A2 - Jux
- Chair of Physical Chemistry I
Z1 - Drewello
- Chair of Physical Chemistry II
B7 - Steinrück/Papp
- Computer-Chemistry-Center
C1 - Clark/Meyer
- Chair of Theoretical Chemistry
C2 - Görling
Department of Physics
- Chair of Experimental Physics
B4 - Maier, B5 - Müller/Koval
- Chair of Technical Physics
B6 - Seyller
- Chair of Applied Physics
B8 - Weber
- Chair of Theoretical Physics
C3 - Pankratov/Shallcross, C4 - Thoss
Department of Materials Science and Engineering
- Chair of Materials for Electronics and Energy Technology
B1 - Brabec, B3 - Halik, B9 - Zaumseil
- Chair of Biomaterials
Z2 - Spiecker
Department of Chemical and Biological Engineering
- Chair of Particle Technology
A3 - Peukert
Institute of Advanced Materials and Processes (ZMP)
Areas of Research:
The research projects are divided into four areas:
Research Area A: Synthesis and Functionalization of Synthetic Carbon Allotropes
Research Area B: Electronic, Optical, and Structural Properties
Research Area C: Theory
Research Area Z: Scientific Service Projects
Projektübersicht
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Nummer |
Pl |
Projekttitel |
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Research Area A: Synthesis and Functionalization of Synthetic Carbon Allotropes |
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A1 |
Unifying Concepts for the Chemistry of Synthetic Carbon Allotropes |
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A2 |
Graphyrins – Graphene-Porphyrin Hybrids |
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A3 |
Scalable Shear Force-Induced Exfoliation and Functionalization of Graphene Flakes and Nanoscrolls |
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A4 |
The Next Generation of Carbon Allotropes: On the Way to Carbyne and Graphyne |
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A5 |
Graphene-like Systems Containing Heteroatoms |
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Research Area B: Electronic, Optical, and Structural Properties |
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B1 |
Optoelectronic Properties of Semiconducting Carbon Allotrope Heterojunction Devices |
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B3 |
Electrical Properties and Assembly of Carbon Allotropes |
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B4 |
High Resolution Scanning Probe Microscopy/Spectroscopy of Functionalized Carbon Allotropes |
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B5 |
Production Processes and Physical Properties of Carbon Allotropes |
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B5 |
Production Processes and Physical Properties of Carbon Allotropes |
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B6 |
Electronic Structure and ManyBody Effects in Doped Graphene |
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B7 |
Tuning the Surface Chemical Properties of Graphene |
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B7 |
Tuning the Surface Chemical Properties of Graphene |
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B8 |
Graphene and Organic Molecules: Transport Experiments |
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B9 |
Photo- and Electroluminescence of Carbon Allotropes |
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Research Area C: Theory |
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C1 |
Large Scale Simulations on Carbon Allotropes |
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C1 |
Large Scale Simulations on Carbon Allotropes |
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C2 |
Formation, Structure, Energetics, and Electronic Properties of Carbynes, Fullerenes, and Graphenes by First-Principles Calculations |
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C3 |
Theory of Few Layer Graphenes: Flakes, Edges and Doping |
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C3 |
Theory of Few Layer Graphenes: Flakes, Edges and Doping |
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C4 |
Interaction of Organic Molecules with Synthetic Carbon Allotropes: Theory and Simulation of Charge Transport Processes and Photophysical Properties |
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Research Area Z: Scientific Service Projects |
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Z1 |
Gas-phase Ion Chemistry of New and Modified Carbon Allotropes |
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Z2 |
Aberration-Corrected High-Resolution and in situ Transmission Electron Microscopy of Carbon Allotropes and Related Device Structures |
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| Z3 | ||
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Z3 |
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