Inventor
KLAUK HAGEN
DE26 patents
⚠️ This page may combine multiple inventors who share the name “KLAUK HAGEN”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
INFINEON TECHNOLOGIES AG
22 patentsUS7067840B2Jun 27, 2006
Method and device for reducing the contact resistance in organic field-effect transistors by embedding nanoparticles to produce field boosting
INFINEON TECHNOLOGIES AG26 citations92
US7057206B2Jun 6, 2006
Silicon particles as additives for improving charge carrier mobility in organic semiconductors
INFINEON TECHNOLOGIES AG43 citations92
US6787832B2Sep 7, 2004
Semiconductor memory cell and semiconductor memory device
INFINEON TECHNOLOGIES AG23 citations92
US6806124B2Oct 19, 2004
Method for reducing the contact resistance in organic field-effect transistors by applying a reactive intermediate layer which dopes the organic semiconductor layer region-selectively in the contact region
INFINEON TECHNOLOGIES AG28 citations89
US7326957B2Feb 5, 2008
Thin film field effect transistor with gate dielectric made of organic material and method for fabricating the same
INFINEON TECHNOLOGIES AG15 citations84
US7202547B2Apr 10, 2007
Capacitor with a dielectric including a self-organized monolayer of an organic compound
INFINEON TECHNOLOGIES AG13 citations83
US7151275B2Dec 19, 2006
Reducing the contact resistance in organic field-effect transistors with palladium contacts by using nitriles and isonitriles
INFINEON TECHNOLOGIES AG15 citations82
US7254883B2Aug 14, 2007
Method for manufacturing a packaging material in the form of a laminate with an electrically conductive layer formed as an antenna structure
INFINEON TECHNOLOGIES AG7 citations74
US7303940B2Dec 4, 2007
Semiconductor component having at least one organic semiconductor layer and method for fabricating the same
INFINEON TECHNOLOGIES AG7 citations73
US7298013B2Nov 20, 2007
Compound used to form a self-assembled monolayer, layer structure, semiconductor component having a layer structure, and method for producing a layer structure
INFINEON TECHNOLOGIES AG7 citations69
US7582896B2Sep 1, 2009
Integrated circuit comprising an organic semiconductor, and method for the production of an integrated circuit
INFINEON TECHNOLOGIES AG3 citations62
US7417247B2Aug 26, 2008
Pentaarylcyclopentadienyl units as active units in resistive memory elements
INFINEON TECHNOLOGIES AG4 citations62
US7396566B2Jul 8, 2008
Fabrication of organic electronic circuits by contact printing techniques
INFINEON TECHNOLOGIES AG6 citations62
US7211520B2May 1, 2007
Method for fabricating a field effect transistor
INFINEON TECHNOLOGIES AG3 citations62
US7115897B2Oct 3, 2006
Semiconductor circuit configuration and semiconductor memory device
INFINEON TECHNOLOGIES AG4 citations62
US7049628B2May 23, 2006
Semiconductor memory cell and semiconductor memory device
INFINEON TECHNOLOGIES AG2 citations62
US7208782B2Apr 24, 2007
Reduction of the contact resistance in organic field-effect transistors with palladium contacts by using phosphines and metal-containing phosphines
INFINEON TECHNOLOGIES AG4 citations61
US6867442B2Mar 15, 2005
Surface-functionalized inorganic semiconductor particles as electrical semiconductors for microelectronics applications
INFINEON TECHNOLOGIES AG6 citations61
US7247735B2Jul 24, 2007
Octupolar molecules used as organic semiconductors
INFINEON TECHNOLOGIES AG0 citations52
US7208823B2Apr 24, 2007
Semiconductor arrangement comprising transistors based on organic semiconductors and non-volatile read-write memory cells
INFINEON TECHNOLOGIES AG1 citations52
US7390703B2Jun 24, 2008
Method for through-plating field effect transistors with a self-assembled monolayer of an organic compound as gate dielectric
INFINEON TECHNOLOGIES AG1 citations51
US7455795B2Nov 25, 2008
Charge transfer complexes including an electron donor and an electron acceptor as basis of resistive memories
INFINEON TECHNOLOGIES AG0 citations48