Inventor · disambiguated record
Cherie R. Kagan
Also filed as: KAGAN CHERIE · KAGAN CHERIE R · KAGAN CHERIE RENEE
46 granted patents·12 pending applications·927 citations·filing 1999–2024
98Inventor score
Files withIBM31UNIV PENNSYLVANIA10AFZALI-ARDAKANI ALI7SAMSUNG ELECTRONICS CO LTD4UNIVERSAL DISPLAY CORP4
Top patents by PatentIndex Score
58 records- 0198US6344662B1Thin-film field-effect transistor with organic-inorganic hybrid semiconductor requiring low operating voltagesIBM·Filed 2000·Granted Feb 5, 2002·210 cites·42 claims
- 0297US8138102B2Method of placing a semiconducting nanostructure and semiconductor device including the semiconducting nanostructureAFZALI-ARDAKANI ALI·Filed 2008·Granted Mar 20, 2012·36 cites·12 claims
- 0396US7883685B1Complexes of carbon nanotubes and fullerenes with molecular-clips and use thereofIBM·Filed 2010·Granted Feb 8, 2011·16 cites·16 claims
- 0496US7771695B2Complexes of carbon nanotubes and fullerenes with molecular-clips and use thereofIBM·Filed 2006·Granted Aug 10, 2010·18 cites·17 claims
- 0596US6887332B1Patterning solution deposited thin films with self-assembled monolayersIBM·Filed 2000·Granted May 3, 2005·109 cites·9 claims
- 0696US6825358B2Synthesis of soluble derivatives of sexithiophene and their use as the semiconducting channels in thin-film field-effect transistorsIBM·Filed 2002·Granted Nov 30, 2004·51 cites·10 claims
- 0796US6414164B1Synthesis of soluble derivatives of sexithiophene and their use as the semiconducting channels in thin-film filed-effect transistorsIBM·Filed 2000·Granted Jul 2, 2002·57 cites·1 claims
- 0895US8604559B2Method of placing a semiconducting nanostructure and semiconductor device including the semiconducting nanostructureAFZALI-ARDAKANI ALI·Filed 2011·Granted Dec 10, 2013·14 cites·17 claims
- 0995US7879307B2Complexes of carbon nanotubes and fullerenes with molecular-clips and use thereofIBM·Filed 2010·Granted Feb 1, 2011·12 cites·19 claims
- 1094US8598569B2Pentacene-carbon nanotube composite, method of forming the composite, and semiconductor device including the compositeAFZALI-ARDAKANI ALI·Filed 2008·Granted Dec 3, 2013·12 cites·16 claims
- 1192US7855133B2Formation of carbon and semiconductor nanomaterials using molecular assembliesIBM·Filed 2008·Granted Dec 21, 2010·16 cites·27 claims
- 1292US7405129B2Device comprising doped nano-component and method of forming the deviceIBM·Filed 2005·Granted Jul 29, 2008·21 cites·7 claims
- 1391US8138492B2Formation of carbon and semiconductor nanomaterials using molecular assembliesAFZALI-ARDAKANI ALI·Filed 2010·Granted Mar 20, 2012·10 cites·10 claims
- 1491US7544546B2Formation of carbon and semiconductor nanomaterials using molecular assembliesIBM·Filed 2006·Granted Jun 9, 2009·16 cites·1 claims
- 1590US7982274B2Device comprising doped nano-componentIBM·Filed 2008·Granted Jul 19, 2011·14 cites·4 claims
- 1690US7445815B2Process for preparing a film having alternating monolayers of a metal-metal bonded complex monolayer and an organic monolayer by layer-by layer growthIBM·Filed 2007·Granted Nov 4, 2008·6 cites·16 claims
- 1789US7955585B2Complexes of carbon nanotubes and fullerenes with molecular-clips and use thereofIBM·Filed 2010·Granted Jun 7, 2011·13 cites·19 claims
- 1889US7867469B2Complexes of carbon nanotubes and fullerenes with molecular-clips and use thereofIBM·Filed 2010·Granted Jan 11, 2011·13 cites·20 claims
- 1989US6437422B1Active devices using threadsIBM·Filed 2001·Granted Aug 20, 2002·46 cites·61 claims
- 2085US7166327B2Method of preparing a conjugated molecular assemblyIBM·Filed 2003·Granted Jan 23, 2007·14 cites·6 claims
- 2184US7531293B2Radiation sensitive self-assembled monolayers and uses thereofIBM·Filed 2006·Granted May 12, 2009·8 cites·1 claims
- 2284US7491286B2Patterning solution deposited thin films with self-assembled monolayersIBM·Filed 2004·Granted Feb 17, 2009·26 cites·16 claims
- 2379US8273886B2Radiation sensitive self-assembled monolayers and uses thereofAFZALI-ARDAKANI ALI·Filed 2008·Granted Sep 25, 2012·3 cites·5 claims
- 2479US2024192528A1Nanocrystal Superparticles Through A Source-Sink Emulsion SystemUNIV PENNSYLVANIA·Filed 2024·Application pending·0 cites
- 2578US8686404B2Organic semiconductors capable of ambipolar transportKAGAN CHERIE·Filed 2009·Granted Apr 1, 2014·7 cites·17 claims
- 2677US11581501B2Electronic device and production method thereofSAMSUNG ELECTRONICS CO LTD·Filed 2019·Granted Feb 14, 2023·1 cites·21 claims
- 2776US6180956B1Thin film transistors with organic-inorganic hybrid materials as semiconducting channelsIBM·Filed 1999·Granted Jan 30, 2001·106 cites·11 claims
- 2875US6646285B1Molecular electronic device using metal-metal bonded complexesIBM·Filed 2002·Granted Nov 11, 2003·23 cites·26 claims
- 2974US7189433B2Process for preparing a film having alternatively monolayers of a metal-metal bonded complex monolayer and an organic monolayer by layer-by layer growthIBM·Filed 2002·Granted Mar 13, 2007·6 cites·14 claims
- 3073US7727505B2Methods for separating carbon nanotubes by enhancing the density differentialIBM·Filed 2008·Granted Jun 1, 2010·14 cites·15 claims
- 3172US2025114753A1Nanocrystal superparticles through a source-sink emulsion systemUNIV PENNSYLVANIA·Filed 2023·Application pending·0 cites
- 3271US2023200095A1Electronic device and production method thereofSAMSUNG ELECTRONICS CO LTD·Filed 2023·Application pending·0 cites
- 3370US8021753B2Film having alternating monolayers of a metal-metal bonded complex monolayer and an organic monolayer by layer-by-layer growthIBM·Filed 2008·Granted Sep 20, 2011·0 cites·13 claims
- 3470US7932128B2Polymeric material, method of forming the polymeric material, and method of forming a thin film using the polymeric materialIBM·Filed 2007·Granted Apr 26, 2011·1 cites·9 claims
- 3570US2024124726A1Nanoparticle Ink Based Patterning Of Inorganic MaterialsUNIV PENNSYLVANIA·Filed 2023·Application pending·0 cites
- 3668US11127917B2Spectral emission modification using localized surface plasmon of metallic nanoparticlesUNIVERSAL DISPLAY CORP·Filed 2019·Granted Sep 21, 2021·0 cites·27 claims
- 3768US7132678B2Electronic device including a self-assembled monolayer, and a method of fabricating the sameIBM·Filed 2003·Granted Nov 7, 2006·21 cites·30 claims
- 3867US11901178B2Quantum dots and production method thereofSAMSUNG ELECTRONICS CO LTD·Filed 2021·Granted Feb 13, 2024·0 cites·19 claims
- 3963US9865465B2Nanocrystal thin film fabrication methods and apparatusUNIV PENNSYLVANIA·Filed 2014·Granted Jan 9, 2018·1 cites·6 claims
- 4063US7521091B2Method of preparing an extended conjugated molecular assemblyIBM·Filed 2006·Granted Apr 21, 2009·0 cites·10 claims
- 4162US9072887B2Self-adaptive bio-signal and modulation deviceKAGAN CHERIE·Filed 2010·Granted Jul 7, 2015·3 cites·20 claims
- 4261US2014034939A1Polymeric material, method of forming the polymeric material, and method of forming a thin film using the polymeric materialIBM·Filed 2013·Application pending·0 cites
- 4360US10950427B2Quantum dots and production method thereofSAMSUNG ELECTRONICS CO LTD·Filed 2019·Granted Mar 16, 2021·0 cites·18 claims
- 4459US9336919B2Methods for preparing colloidal nanocrystal-based thin filmsUNIV PENNSYLVANIA·Filed 2013·Granted May 10, 2016·2 cites·8 claims
- 4558US8586971B2Polymeric material, method of forming the polymeric material, and method of forming a thin film using the polymeric materialAFZALI-ARDAKANI ALI·Filed 2011·Granted Nov 19, 2013·0 cites·5 claims
- 4656US2012308933A1Radiation sensitive self-assembled monolayers and uses thereofAFZALI-ARDAKANI ALI·Filed 2012·Application pending·0 cites
- 4755US2013015433A1Pentacene-carbon nanotube composite, method of forming the composite, and semiconductor device including the compositeIBM·Filed 2012·Application pending·0 cites
- 4853US11543306B2Ultra-sensitive, mechanically-responsive optical metasurfaces via strain amplificationUNIV PENNSYLVANIA·Filed 2020·Granted Jan 3, 2023·0 cites·27 claims
- 4952US10096733B2Methods for the preparation of colloidal nanocrystal dispersionUNIV PENNSYLVANIA·Filed 2016·Granted Oct 9, 2018·0 cites·13 claims
- 5052US10096734B2Methods of forming colloidal nanocrystal-based thin film devicesUNIV PENNSYLVANIA·Filed 2016·Granted Oct 9, 2018·0 cites·22 claims
Showing the top 50 of 58 patent records by PatentIndex Score.
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