SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2593725908> ?p ?o ?g. }

Showing items 1 to 100 of ±115 with 100 items per page.

W2593725908 endingPage "1" @default.
W2593725908 startingPage "1" @default.
W2593725908 abstract "Over the past decade, unmanned air vehicles are gaining more and more interest and popularity in particular miniaturized small flight objects named NAVs (Nano Air Vehicles). One of the main considerations when building or buying a drone is the flight time and range. The flight time is nowadays a drawback for miniature unmanned aerial vehicles (UAVs). It is limited to few minutes before requiring a forced recovery to replace exhausted batteries. Currently the batteries are the dominant technology, which possess limited operation in time and energy. The real viability to extending flight time (FT) of NAVs is possible exploring new and more disruptive alternative solution able either to recharge a battery, or even to directly power the NAVs during the flight. Plasmonic Nano Energy harvester is an attractive technology to extending the FT extracting the energy in mid-infrared radiation emitted from Earth’s surface with Rectenna tuned to mid-infrared wavelengths (7 –14 ) um with a peak wavelength of about10um . In this review the concepts emerging from this work identify and suggest how this novel harvester can constantly supply these flying objects for the whole day." @default.
W2593725908 created "2017-03-16" @default.
W2593725908 creator A5003290265 @default.
W2593725908 creator A5008818025 @default.
W2593725908 creator A5050655110 @default.
W2593725908 creator A5051490340 @default.
W2593725908 creator A5065696840 @default.
W2593725908 date "2017-03-11" @default.
W2593725908 modified "2023-10-02" @default.
W2593725908 title "Nano Energy Harvesting with Plasmonic Nano-Antennas: A review of MID-IR Rectenna and Application" @default.
W2593725908 cites W1522759981 @default.
W2593725908 cites W1533329348 @default.
W2593725908 cites W1534194477 @default.
W2593725908 cites W1622387358 @default.
W2593725908 cites W1675665329 @default.
W2593725908 cites W1869505242 @default.
W2593725908 cites W193557319 @default.
W2593725908 cites W1969161726 @default.
W2593725908 cites W1969820469 @default.
W2593725908 cites W1980807730 @default.
W2593725908 cites W1984317077 @default.
W2593725908 cites W1991781995 @default.
W2593725908 cites W1998566401 @default.
W2593725908 cites W2000769061 @default.
W2593725908 cites W2003301696 @default.
W2593725908 cites W2006209472 @default.
W2593725908 cites W2011663659 @default.
W2593725908 cites W2012067157 @default.
W2593725908 cites W2019871317 @default.
W2593725908 cites W2021383964 @default.
W2593725908 cites W2038232358 @default.
W2593725908 cites W2049813204 @default.
W2593725908 cites W2053032800 @default.
W2593725908 cites W2062484967 @default.
W2593725908 cites W2071521202 @default.
W2593725908 cites W2081069706 @default.
W2593725908 cites W2084563127 @default.
W2593725908 cites W2088431793 @default.
W2593725908 cites W2090889052 @default.
W2593725908 cites W2100284275 @default.
W2593725908 cites W2112018891 @default.
W2593725908 cites W2117362358 @default.
W2593725908 cites W2126580540 @default.
W2593725908 cites W2139493105 @default.
W2593725908 cites W2159054436 @default.
W2593725908 cites W2268519407 @default.
W2593725908 cites W2268800332 @default.
W2593725908 cites W2331571087 @default.
W2593725908 cites W236617152 @default.
W2593725908 cites W2477393406 @default.
W2593725908 cites W2485845704 @default.
W2593725908 cites W2499456982 @default.
W2593725908 cites W2525265072 @default.
W2593725908 cites W2539514955 @default.
W2593725908 cites W404516020 @default.
W2593725908 doi "https://doi.org/10.7716/aem.v6i2.462" @default.
W2593725908 hasPublicationYear "2017" @default.
W2593725908 type Work @default.
W2593725908 sameAs 2593725908 @default.
W2593725908 citedByCount "16" @default.
W2593725908 countsByYear W25937259082018 @default.
W2593725908 countsByYear W25937259082019 @default.
W2593725908 countsByYear W25937259082020 @default.
W2593725908 countsByYear W25937259082021 @default.
W2593725908 countsByYear W25937259082022 @default.
W2593725908 countsByYear W25937259082023 @default.
W2593725908 crossrefType "journal-article" @default.
W2593725908 hasAuthorship W2593725908A5003290265 @default.
W2593725908 hasAuthorship W2593725908A5008818025 @default.
W2593725908 hasAuthorship W2593725908A5050655110 @default.
W2593725908 hasAuthorship W2593725908A5051490340 @default.
W2593725908 hasAuthorship W2593725908A5065696840 @default.
W2593725908 hasBestOaLocation W25937259081 @default.
W2593725908 hasConcept C101518730 @default.
W2593725908 hasConcept C121332964 @default.
W2593725908 hasConcept C127413603 @default.
W2593725908 hasConcept C146978453 @default.
W2593725908 hasConcept C163258240 @default.
W2593725908 hasConcept C41008148 @default.
W2593725908 hasConcept C46526593 @default.
W2593725908 hasConcept C555008776 @default.
W2593725908 hasConcept C62520636 @default.
W2593725908 hasConceptScore W2593725908C101518730 @default.
W2593725908 hasConceptScore W2593725908C121332964 @default.
W2593725908 hasConceptScore W2593725908C127413603 @default.
W2593725908 hasConceptScore W2593725908C146978453 @default.
W2593725908 hasConceptScore W2593725908C163258240 @default.
W2593725908 hasConceptScore W2593725908C41008148 @default.
W2593725908 hasConceptScore W2593725908C46526593 @default.
W2593725908 hasConceptScore W2593725908C555008776 @default.
W2593725908 hasConceptScore W2593725908C62520636 @default.
W2593725908 hasIssue "2" @default.
W2593725908 hasLocation W25937259081 @default.
W2593725908 hasLocation W25937259082 @default.
W2593725908 hasLocation W25937259083 @default.
W2593725908 hasLocation W25937259084 @default.
W2593725908 hasOpenAccess W2593725908 @default.
W2593725908 hasPrimaryLocation W25937259081 @default.