SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2053076814> ?p ?o ?g. }

Showing items 1 to 100 of ±108 with 100 items per page.

W2053076814 endingPage "2252" @default.
W2053076814 startingPage "2247" @default.
W2053076814 abstract "The hotside operating temperatures for many projected thermophotovoltaic (TPV) conversion system applications are approximately 1000 °C, which sets an upper limit on the TPV diode band gap of 0.6 eV from efficiency and power density considerations. This band gap requirement has necessitated the development of new diode material systems never previously considered for energy generation. To date, InGaAsSb quaternary diodes grown lattice matched on GaSb substrates have achieved the highest performance. In this article we relate observed diode performance to electro-optical properties such as minority carrier lifetime, diffusion length, and mobility and provide initial links to microstructural properties. This analysis has bounded potential diode performance improvements. For the 0.53 eV InGaAsSb diodes used in this analysis (active layer doping is 2×1017 cm−3) the dark current density measured is 2×10−5 A/cm2 versus a potential Auger and/or a radiative limit of 2×10−6 A/cm2 (no photon recycling), and an absolute thermodynamic limit of 1.4×10−7 A/cm2. These dark current limits are equivalent to open circuit voltage gains of 60 (20%) and 140 mV (45%), respectively." @default.
W2053076814 created "2016-06-24" @default.
W2053076814 creator A5006409588 @default.
W2053076814 creator A5006692403 @default.
W2053076814 creator A5009173641 @default.
W2053076814 creator A5014894329 @default.
W2053076814 creator A5022981945 @default.
W2053076814 creator A5025685700 @default.
W2053076814 creator A5029868280 @default.
W2053076814 creator A5045798747 @default.
W2053076814 creator A5049524152 @default.
W2053076814 creator A5052276492 @default.
W2053076814 creator A5079222531 @default.
W2053076814 creator A5084511773 @default.
W2053076814 creator A5091626735 @default.
W2053076814 date "1999-02-15" @default.
W2053076814 modified "2023-10-17" @default.
W2053076814 title "InGaAsSb thermophotovoltaic diode: Physics evaluation" @default.
W2053076814 cites W1504976741 @default.
W2053076814 cites W1598536229 @default.
W2053076814 cites W1975020914 @default.
W2053076814 cites W1995725222 @default.
W2053076814 cites W2024851932 @default.
W2053076814 cites W2026018199 @default.
W2053076814 cites W2029308595 @default.
W2053076814 cites W2033245977 @default.
W2053076814 cites W2047503361 @default.
W2053076814 cites W2064843913 @default.
W2053076814 cites W2071264375 @default.
W2053076814 cites W2078691953 @default.
W2053076814 cites W2080189993 @default.
W2053076814 cites W2085687668 @default.
W2053076814 cites W2086282294 @default.
W2053076814 cites W2086848687 @default.
W2053076814 cites W2087367177 @default.
W2053076814 cites W2094745949 @default.
W2053076814 doi "https://doi.org/10.1063/1.369533" @default.
W2053076814 hasPublicationYear "1999" @default.
W2053076814 type Work @default.
W2053076814 sameAs 2053076814 @default.
W2053076814 citedByCount "92" @default.
W2053076814 countsByYear W20530768142012 @default.
W2053076814 countsByYear W20530768142013 @default.
W2053076814 countsByYear W20530768142014 @default.
W2053076814 countsByYear W20530768142015 @default.
W2053076814 countsByYear W20530768142016 @default.
W2053076814 countsByYear W20530768142017 @default.
W2053076814 countsByYear W20530768142018 @default.
W2053076814 countsByYear W20530768142019 @default.
W2053076814 countsByYear W20530768142020 @default.
W2053076814 countsByYear W20530768142021 @default.
W2053076814 countsByYear W20530768142022 @default.
W2053076814 countsByYear W20530768142023 @default.
W2053076814 crossrefType "journal-article" @default.
W2053076814 hasAuthorship W2053076814A5006409588 @default.
W2053076814 hasAuthorship W2053076814A5006692403 @default.
W2053076814 hasAuthorship W2053076814A5009173641 @default.
W2053076814 hasAuthorship W2053076814A5014894329 @default.
W2053076814 hasAuthorship W2053076814A5022981945 @default.
W2053076814 hasAuthorship W2053076814A5025685700 @default.
W2053076814 hasAuthorship W2053076814A5029868280 @default.
W2053076814 hasAuthorship W2053076814A5045798747 @default.
W2053076814 hasAuthorship W2053076814A5049524152 @default.
W2053076814 hasAuthorship W2053076814A5052276492 @default.
W2053076814 hasAuthorship W2053076814A5079222531 @default.
W2053076814 hasAuthorship W2053076814A5084511773 @default.
W2053076814 hasAuthorship W2053076814A5091626735 @default.
W2053076814 hasBestOaLocation W20530768142 @default.
W2053076814 hasConcept C117537405 @default.
W2053076814 hasConcept C121332964 @default.
W2053076814 hasConcept C181966813 @default.
W2053076814 hasConcept C184779094 @default.
W2053076814 hasConcept C192562407 @default.
W2053076814 hasConcept C2780646311 @default.
W2053076814 hasConcept C46918542 @default.
W2053076814 hasConcept C49040817 @default.
W2053076814 hasConcept C78434282 @default.
W2053076814 hasConceptScore W2053076814C117537405 @default.
W2053076814 hasConceptScore W2053076814C121332964 @default.
W2053076814 hasConceptScore W2053076814C181966813 @default.
W2053076814 hasConceptScore W2053076814C184779094 @default.
W2053076814 hasConceptScore W2053076814C192562407 @default.
W2053076814 hasConceptScore W2053076814C2780646311 @default.
W2053076814 hasConceptScore W2053076814C46918542 @default.
W2053076814 hasConceptScore W2053076814C49040817 @default.
W2053076814 hasConceptScore W2053076814C78434282 @default.
W2053076814 hasIssue "4" @default.
W2053076814 hasLocation W20530768141 @default.
W2053076814 hasLocation W20530768142 @default.
W2053076814 hasOpenAccess W2053076814 @default.
W2053076814 hasPrimaryLocation W20530768141 @default.
W2053076814 hasRelatedWork W140495947 @default.
W2053076814 hasRelatedWork W1497812909 @default.
W2053076814 hasRelatedWork W2011040521 @default.
W2053076814 hasRelatedWork W2114047126 @default.
W2053076814 hasRelatedWork W2481987047 @default.
W2053076814 hasRelatedWork W3044167688 @default.
W2053076814 hasRelatedWork W3129747343 @default.