ELFT HÍRADÓ

[SIMON Ferenc <f.simon AT eik.bme.hu>]

MEGHÍVÓ

A BME Fizika Tanszék szemináriumára:

Dr. Frank Hauke
Executive Director, Joint Institute of Advanced Materials and Processes, 
Friedrich-Alexander University Erlangen-Nuernberg, Germany

Cím: The Chemistry of Carbon Allotropes and Beyond

Időpont: 2016. szeptember 5 (hétfő) 13.00
Hely: BME, F. épület, I. lépcsőhaz, 1. emelet, Schay terem
megközelítes: https://www.google.hu/maps/ AT 47.479918,19.0547192,19z

Az előadó rövid bemutatása angolul, abstract alább:
Dr. Frank Hauke, is the Executive Director of the Joint Institute of 
Advanced Materials and Processes of the Friedrich-Alexander University of 
Erlangen-Nürnberg and Executive Director of the Collaborative Research 
Center 953 "Synthetic Carbon Allotropes" implemented 2012 by the German 
Science Foundation. He studied Chemistry at the University of 
Erlangen-Nuremberg and graduated with honors in 1999. In 2003 he finished 
his PhD work on the chemical functionalization of monoaza heterofullerenes 
with summa cum laude. After a two years postdoctoral stay from 2004.2006 
at the Scripps Research Institute, La Jolla, CA, he returned back to 
Germany and commenced his research activities at the Joint Institute of 
Advanced Materials and Processes, Fürth (University Erlangen-Nuremberg) as 
chief executive and group leader in the field of functional carbon 
allotropes. The main scientific interest is the investigation of the basic 
and unifying principles of the chemical functionalization of the 
0-dimensional fullerenes, the 1-dimensional carbon nanotubes and the 
2-dimensional graphene. In 2012 he became a the executive director of the 
Collaborative Research Center 953 "Synthetic Carbon Allotropes" 
established by the German Science Foundation (DFG). The CRC 953 
constitutes the ideal forum to advance the field of synthetic carbon 
allotropes towards the desired goal of creating new materials for 
high-performance applications.

Minden érdeklődőt szeretettel várunk!
Üdvözlettel
Simon Ferenc


Abstract:
The knowledge of the element carbon has inflationary been expanded with 
the advent of the fullerenes, carbon nanotubes and graphene. These 
modifications of carbon exhibit a broad portfolio of unprecedented 
physical properties rendering them ideal candidates for future 
high-performance components in electrical and mechanical devices. All 
three molecular allotropes share one common blue-print: their .-framework 
is based on trigonaly bound carbon atoms and the remaining electron is 
located in a more or less delocalized .-system, responsible for the 
physical properties and chemical reactivity of these systems. Within this 
talk, the chemical reactivity of fullerenes, carbon nanotubes, and 
graphene are comparatively discussed. Here, the main focus is based on the 
reductive exfoliation/activation with subsequent covalent framework 
functionalization.[1,2] Novel approaches and concepts for the 
characterization of the polydisperse reaction products are presented.[3,4] 
These are the linking joint for the analysis of 2D materials beyond 
graphene. Therefore, the last part of the presentation will focus on the 
chemistry of black phosphorus.

[1]	J. M. Englert, C. Dotzer, G. Yang, M. Schmid, C. Papp, J. M. 
Gottfried, H.-P. Steinrück, E. Spiecker, F. Hauke, A. Hirsch, Nat. Chem. 
2011, 3, 		279-286.
[2]	Z. Syrgiannis, B. Gebhardt, C. Dotzer, F. Hauke, R. Graupner, A. 
Hirsch, Angew. Chem., Int. Ed. 2010, 49, 3322-3325.
[3]	F. Hof, S. Bosch, J. M. Englert, F. Hauke, A. Hirsch, Angew. Chem. 
Int. Ed. 2012, 51, 11727-11730.
[4]	F. Hof, R. A. Schäfer, C. Weiss, F. Hauke, A. Hirsch, Chem. Eur. 
J. 2014, 20, 16644-16651.

----------------------------
Prof. Ferenc SIMON
BME Fizikai Intézet, Igazgatóhelyettes
TU-Budapest, Institute of Physics, deputy director
http://physics.bme.hu/kapcsolat
http://goliat.eik.bme.hu/~f.simon/
ph. lab.:               (36-1) 463-1215
fax:                    (36-1) 463-4180
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