Inventor · disambiguated record
Mark W. Wanlass
Also filed as: WANLASS MARK · WANLASS MARK W · WANLASS MARK WOODBURY
24 granted patents·10 pending applications·1,326 citations·filing 1985–2017
97Inventor score
Files withWANLASS MARK W10ALLIANCE SUSTAINABLE ENERGY8MIDWEST RESEARCH INST6US ENERGY4MICROLINK DEVICES INC2
Top patents by PatentIndex Score
34 records- 0198US5019177AMonolithic tandem solar cellUS ENERGY·Filed 1989·Granted May 28, 1991·166 cites·12 claims
- 0296US5376185ASingle-junction solar cells with the optimum band gap for terrestrial concentrator applicationsMIDWEST RESEARCH INST·Filed 1993·Granted Dec 27, 1994·180 cites·15 claims
- 0395US6300557B1Low-bandgap double-heterostructure InAsP/GaInAs photovoltaic convertersMIDWEST RESEARCH INST·Filed 1999·Granted Oct 9, 2001·149 cites·17 claims
- 0495US6239354B1Electrical isolation of component cells in monolithically interconnected modulesMIDWEST RESEARCH INST·Filed 1999·Granted May 29, 2001·166 cites·8 claims
- 0595US5322572AMonolithic tandem solar cellUS ARMY·Filed 1991·Granted Jun 21, 1994·160 cites·15 claims
- 0694US8772623B2Low-bandgap, monolithic, multi-bandgap, optoelectronic devicesALLIANCE SUSTAINABLE ENERGY·Filed 2012·Granted Jul 8, 2014·10 cites·23 claims
- 0793US4963949ASubstrate structures for InP-based devicesUS ENERGY·Filed 1988·Granted Oct 16, 1990·125 cites·15 claims
- 0892US8067687B2High-efficiency, monolithic, multi-bandgap, tandem photovoltaic energy convertersWANLASS MARK W·Filed 2004·Granted Nov 29, 2011·55 cites·59 claims
- 0989US8614395B1Solar cell with back side contactsNIELSON GREGORY N·Filed 2011·Granted Dec 24, 2013·6 cites·5 claims
- 1089US8173891B2Monolithic, multi-bandgap, tandem, ultra-thin, strain-counterbalanced, photovoltaic energy converters with optimal subcell bandgapsWANLASS MARK W·Filed 2008·Granted May 8, 2012·16 cites·14 claims
- 1186US4649859AReactor design for uniform chemical vapor deposition-grown films without substrate rotationUS ENERGY·Filed 1985·Granted Mar 17, 1987·52 cites·9 claims
- 1285US7095050B2Voltage-matched, monolithic, multi-band-gap devicesMIDWEST RESEARCH INST·Filed 2002·Granted Aug 22, 2006·57 cites·54 claims
- 1384US5391896AMonolithic multi-color light emission/detection deviceMIDWEST RESEARCH INST·Filed 1992·Granted Feb 21, 1995·68 cites·2 claims
- 1482US8772628B2High performance, high bandgap, lattice-mismatched, GaInP solar cellsWANLASS MARK W·Filed 2009·Granted Jul 8, 2014·6 cites·18 claims
- 1582US5897715AInterdigitated photovoltaic power conversion deviceMIDWEST RESEARCH INST·Filed 1997·Granted Apr 27, 1999·71 cites·27 claims
- 1681US8735202B2High-efficiency, monolithic, multi-bandgap, tandem, photovoltaic energy convertersWANLASS MARK W·Filed 2011·Granted May 27, 2014·2 cites·7 claims
- 1772US9231135B2Low-bandgap, monolithic, multi-bandgap, optoelectronic devicesALLIANCE SUSTAINABLE ENERGY·Filed 2014·Granted Jan 5, 2016·0 cites·12 claims
- 1870US4935384AMethod of passivating semiconductor surfacesUS ENERGY·Filed 1988·Granted Jun 19, 1990·36 cites·10 claims
- 1965US9590131B2Systems and methods for advanced ultra-high-performance InP solar cellsALLIANCE SUSTAINABLE ENERGY·Filed 2014·Granted Mar 7, 2017·0 cites·13 claims
- 2065US2013133730A1Thin film inp-based solar cells using epitaxial lift-offMICROLINK DEVICES INC·Filed 2013·Application pending·0 cites
- 2164US9293615B2Low-bandgap, monolithic, multi-bandgap, optoelectronic devicesALLIANCE SUSTAINABLE ENERGY·Filed 2015·Granted Mar 22, 2016·0 cites·13 claims
- 2264US2015255668A1Thin film inp-based solar cells using epitaxial lift-offMICROLINK DEVICES INC·Filed 2012·Application pending·0 cites
- 2361US10026856B2Systems and methods for advanced ultra-high-performance InP solar cellsALLIANCE SUSTAINABLE ENERGY·Filed 2017·Granted Jul 17, 2018·0 cites·13 claims
- 2455US2011073887A1Optoelectronic devices having a direct-band-gap base and an indirect-band-gap emitterALLIANCE SUSTAINABLE ENERGY·Filed 2009·Application pending·0 cites
- 2553US9543468B2High bandgap III-V alloys for high efficiency optoelectronicsALBERI KIRSTIN·Filed 2011·Granted Jan 10, 2017·1 cites·20 claims
- 2653US9484480B2High performance, high bandgap, lattice-mismatched, GaInP solar cellsALLIANCE SUSTAINABLE ENERGY·Filed 2014·Granted Nov 1, 2016·0 cites·6 claims
- 2753US2014069493A1Photovoltaic deviceALLIANCE SUSTAINABLE ENERGY·Filed 2012·Application pending·0 cites
- 2853US2013048064A1Interconnections for Mechanically Stacked Multijunction Solar CellsMCMAHON WILLIAM EDWIN·Filed 2012·Application pending·0 cites
- 2953US2011284054A1Spectral splitting for multi-bandgap photovoltaic energy conversionWANLASS MARK W·Filed 2009·Application pending·0 cites
- 3051US8691663B2Methods of manipulating stressed epistructuresWANLASS MARK W·Filed 2009·Granted Apr 8, 2014·0 cites·19 claims
- 3147US2011277828A1Disorder-order homojunctions as minority-carrier barriersWANLASS MARK W·Filed 2010·Application pending·0 cites
- 3240US2006162768A1Low bandgap, monolithic, multi-bandgap, optoelectronic devicesWANLASS MARK W·Filed 2002·Application pending·0 cites
- 3339US2006048700A1Method for achieving device-quality, lattice-mismatched, heteroepitaxial active layersWANLASS MARK W·Filed 2002·Application pending·0 cites
- 3434US2007137698A1Monolithic photovoltaic energy conversion deviceWANLASS MARK W·Filed 2002·Application pending·0 cites
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