Inventor
KONSTANTATOS GERASIMOS
ES37 patents
⚠️ This page may combine multiple inventors who share the name “KONSTANTATOS GERASIMOS”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
INVISAGE TECHNOLOGIES INC
13 patentsUS7773404B2Aug 10, 2010
Quantum dot optical devices with enhanced gain and sensitivity and methods of making same
INVISAGE TECHNOLOGIES INC43 citations96
US8054671B2Nov 8, 2011
Methods of making quantum dot films
INVISAGE TECHNOLOGIES INC14 citations92
US8023306B2Sep 20, 2011
Electronic and optoelectronic devices with quantum dot films
INVISAGE TECHNOLOGIES INC17 citations92
US7881091B2Feb 1, 2011
Methods of making quantum dot films
INVISAGE TECHNOLOGIES INC24 citations92
US7746681B2Jun 29, 2010
Methods of making quantum dot films
INVISAGE TECHNOLOGIES INC26 citations92
US7742322B2Jun 22, 2010
Electronic and optoelectronic devices with quantum dot films
INVISAGE TECHNOLOGIES INC28 citations92
US10263041B2Apr 16, 2019
Quantum dot optical devices with enhanced gain and sensitivity and methods of making same
INVISAGE TECHNOLOGIES INC2 citations84
US9570502B2Feb 14, 2017
Quantum dot optical devices with enhanced gain and sensitivity and methods of making same
INVISAGE TECHNOLOGIES INC2 citations84
US9373736B2Jun 21, 2016
Quantum dot optical devices with enhanced gain and sensitivity and methods of making same
INVISAGE TECHNOLOGIES INC6 citations84
US9054246B2Jun 9, 2015
Quantum dot optical devices with enhanced gain and sensitivity and methods of making same
INVISAGE TECHNOLOGIES INC4 citations84
US9231223B2Jan 5, 2016
Three-dimensional bicontinuous heterostructures, method of making, and their application in quantum dot-polymer nanocomposite photodetectors and photovoltaics
INVISAGE TECHNOLOGIES INC4 citations70
US10008543B2Jun 26, 2018
Quantum dot optical devices with enhanced gain and sensitivity and methods of making same
INVISAGE TECHNOLOGIES INC0 citations52
US9806131B2Oct 31, 2017
Quantum dot optical devices with enhanced gain and sensitivity and methods of making same
INVISAGE TECHNOLOGIES INC0 citations52
FUNDACIO INST DE CIENCIES FOTÒNIQUES
10 patentsUS11892473B2Feb 6, 2024
Charge sensing device with gate voltage selected to operate around the charge neutrality point and tune the quantum capacitance
FUNDACIO INST DE CIENCIES FOTÒNIQUES2 citations72
US10437329B2Oct 8, 2019
Gaze tracking apparatus
FUNDACIO INST DE CIENCIES FOTÒNIQUES2 citations72
US9955100B2Apr 24, 2018
Image sensor with non-local readout circuit and optoelectronic device comprising said image sensor
FUNDACIO INST DE CIENCIES FOTÒNIQUES2 citations67
US10070083B2Sep 4, 2018
Image sensor, optoelectronic system comprising said image sensor, and method for manufacturing said image sensor
FUNDACIO INST DE CIENCIES FOTÒNIQUES4 citations65
US10937930B2Mar 2, 2021
Light emitting device, an optical spectrometer, and a down-converting film for a light emitting device
FUNDACIO INST DE CIENCIES FOTÒNIQUES2 citations64
US11710758B2Jul 25, 2023
Optoelectronic apparatus, a reading-out method, and a uses of the optoelectronic apparatus
FUNDACIO INST DE CIENCIES FOTÒNIQUES1 citations61
US11811378B2Nov 7, 2023
Electronic device and a method for suppressing noise for an electronic device
FUNDACIO INST DE CIENCIES FOTÒNIQUES0 citations46
US11420264B2Aug 23, 2022
Method and a system for producing a three-dimensional object
FUNDACIO INST DE CIENCIES FOTÒNIQUES0 citations42
US10677649B2Jun 9, 2020
Optoelectronic apparatus, a method for suppressing noise for an optoelectronic apparatus, and uses thereof
FUNDACIO INST DE CIENCIES FOTÒNIQUES0 citations40
US10396231B2Aug 27, 2019
Photovoltaic material and use of it in a photovoltaic device
FUNDACIO INST DE CIENCIES FOTÒNIQUES0 citations39
SARGENT EDWARD
7 patentsUS8422266B2Apr 16, 2013
Quantum dot optical devices with enhanced gain and sensitivity and methods of making same
SARGENT EDWARD9 citations92
US8284587B2Oct 9, 2012
Quantum dot optical devices with enhanced gain and sensitivity and methods of making same
SARGENT EDWARD13 citations92
US8102693B2Jan 24, 2012
Quantum dot optical devices with enhanced gain and sensitivity and methods of making same
SARGENT EDWARD17 citations92
US8115232B2Feb 14, 2012
Three-dimensional bicontinuous heterostructures, a method of making them, and their application in quantum dot-polymer nanocomposite photodetectors and photovoltaics
SARGENT EDWARD16 citations91
US8284586B2Oct 9, 2012
Electronic and optoelectronic devices with quantum dot films
SARGENT EDWARD8 citations84
US8213212B2Jul 3, 2012
Methods of making quantum dot films
SARGENT EDWARD10 citations84
US8450138B2May 28, 2013
Three-dimensional bicontinuous heterostructures, method of making, and their application in quantum dot-polymer nanocomposite photodetectors and photovoltaics
SARGENT EDWARD10 citations81
FUNDACIO INST DE CIENCIES FOTONIQUES
2 patentsUS11527662B2Dec 13, 2022
Optoelectronic apparatus with a photoconductive gain
FUNDACIO INST DE CIENCIES FOTONIQUES2 citations62
US12344783B2Jul 1, 2025
Methods for obtaining an n-type doped metal chalcogenide quantum dot solid-state element with optical gain and a light emitter including the element, and the obtained element and light emitter
FUNDACIO INST DE CIENCIES FOTONIQUES0 citations43