Franz Kreupl
Franz Kreupl
Professor of Electrical Engineering, Technische Universität München (TUM)
Verified email at - Homepage
Cited by
Cited by
Carbon nanotubes in interconnect applications
F Kreupl, AP Graham, GS Duesberg, W Steinhögl, M Liebau, E Unger, ...
Microelectronic Engineering 64 (1-4), 399-408, 2002
Reconfigurable silicon nanowire transistors
A Heinzig, S Slesazeck, F Kreupl, T Mikolajick, WM Weber
Nano letters 12 (1), 119-124, 2012
Silicon-nanowire transistors with intruded nickel-silicide contacts
WM Weber, L Geelhaar, AP Graham, E Unger, GS Duesberg, M Liebau, ...
Nano letters 6 (12), 2660-2666, 2006
How do carbon nanotubes fit into the semiconductor roadmap?
AP Graham, GS Duesberg, W Hoenlein, F Kreupl, M Liebau, R Martin, ...
Applied Physics A 80, 1141-1151, 2005
Bottom electrodes for use with metal oxide resistivity switching layers
DC Sekar, F Kreupl, RS Makala
US Patent 8,354,660, 2013
On the applicability of single-walled carbon nanotubes as VLSI interconnects
N Srivastava, H Li, F Kreupl, K Banerjee
IEEE Transactions on Nanotechnology 8 (4), 542-559, 2009
Chemical vapor deposition growth of single-walled carbon nanotubes at 600 C and a simple growth model
R Seidel, GS Duesberg, E Unger, AP Graham, M Liebau, F Kreupl
The Journal of Physical Chemistry B 108 (6), 1888-1893, 2004
High-current nanotube transistors
R Seidel, AP Graham, E Unger, GS Duesberg, M Liebau, W Steinhoegl, ...
Nano letters 4 (5), 831-834, 2004
Field effect transistor
RJ Luyken, T Schlösser, TP Haneder, W Hönlein, F Kreupl
US Patent 6,798,000, 2004
Sub-20 nm short channel carbon nanotube transistors
RV Seidel, AP Graham, J Kretz, B Rajasekharan, GS Duesberg, M Liebau, ...
Nano Letters 5 (1), 147-150, 2005
Electronic device and method for fabricating an electronic device
F Hofmann, F Kreupl, RJ Luyken, T Schloesser
US Patent 6,707,098, 2004
Electrochemical functionalization of multi-walled carbon nanotubes for solvation and purification
E Unger, A Graham, F Kreupl, M Liebau, W Hoenlein
Current Applied Physics 2 (2), 107-111, 2002
Carbon nanotube applications in microelectronics
W Hoenlein, F Kreupl, GS Duesberg, AP Graham, M Liebau, RV Seidel, ...
IEEE Transactions on components and packaging technologies 27 (4), 629-634, 2004
Carbon nanotubes for microelectronics: status and future prospects
W Hoenlein, F Kreupl, GS Duesberg, AP Graham, M Liebau, R Seidel, ...
Materials Science and Engineering: C 23 (6-8), 663-669, 2003
Towards the integration of carbon nanotubes in microelectronics
AP Graham, GS Duesberg, R Seidel, M Liebau, E Unger, F Kreupl, ...
Diamond and related materials 13 (4-8), 1296-1300, 2004
Growth of isolated carbon nanotubes with lithographically defined diameter and location
GS Duesberg, AP Graham, M Liebau, R Seidel, E Unger, F Kreupl, ...
Nano Letters 3 (2), 257-259, 2003
Carbon nanotubes for microelectronics?
AP Graham, GS Duesberg, RV Seidel, M Liebau, E Unger, W Pamler, ...
small 1 (4), 382-390, 2005
Electronic component comprising an electrically conductive connection consisting of carbon nanotubes and a method for producing the same
FK Manfred Engelhardt, Wolfgang Honlei
US Patent 20,030,179,559, 2002
In-situ contacted single-walled carbon nanotubes and contact improvement by electroless deposition
R Seidel, M Liebau, GS Duesberg, F Kreupl, E Unger, AP Graham, ...
Nano Letters 3 (7), 965-968, 2003
Silicon: evolution and future of a technology
P Siffert, E Krimmel
Springer Science & Business Media, 2013
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