Christian Klinke
| Name | Christian Klinke |
| Work Groups |
Work Group 1 - Synthesis Work Group 2 - Characterisation Work Group 3 - Devices |
| Laboratory | Institute of Physical Chemistry |
| Organisation | University of Hamburg |
| Website | http://www.chemie.uni-hamburg.de/pc/klinke/index.html |
| Areas of Research | Synthesis of nanostructures, their characterization and devices |
| Research Keywords | Chemical vapor deposition, Colloidal chemistry, Electron microscopy, Electrical transport |
| Areas of Future Interest | Synthesis of nanostructures, their characterization and devices |
Selected Publications:
- Constanze Schliehe, Beatriz H. Juarez, Marie Pelletier, Sebastian Jander, Denis Greshnykh, Mona Nagel, Andreas Meyer, Stephan Forster, Andreas Kornowski, Christian Klinke, Horst Weller: Ultrathin PbS sheets by two-dimensional oriented attachment Science 329 (2010) 550.
- Beatriz H. Juarez, Christian Klinke, Andreas Kornowski, Horst Weller: Quantum dot attachment and morphology control by carbon nanotubes Nano Lett. 7 (2007) 3564.
- Christian Klinke, James B. Hannon, Ali Afzali, Phaedon Avouris: Field-effect transistors assembled from functionalized carbon nanotubes Nano Lett. 6 (2006) 906.
- Yuxue Cai, Denis Wolfkuhler, Anton Myalitsin, Jan Perlich, Andreas Meyer, Christian Klinke: Tunable Electrical Transport through Annealed Monolayers of Monodisperse Cobalt−Platinum Nanoparticles ACS Nano 5 (2011) 67.
- Michaela Meyns, Neus G. Bastus, Yuxue Cai, Andreas Kornowski, Beatriz H. Juarez, Horst Weller, Christian Klinke: Growth and reductive transformation of a gold shell around pyramidal cadmium selenide nanocrystals J. Mater. Chem. 20 (2010) 10602.
Brief CV
In our group we investigate phenomena emerging in novel solid state materials with dimensions in the nanometer range. Such materials are generated by colloidal synthesis, chemical vapor deposition, and electron-beam lithography. We characterize them by means of electrical transport measurements, spectroscopic methods, and electron microscopy. Of special interest are the electrical properties of inorganic nanoparticles, carbon nanotubes, and composites.