SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4386880420> ?p ?o ?g. }

Showing items 1 to 100 of ±103 with 100 items per page.

W4386880420 endingPage "7995" @default.
W4386880420 startingPage "7995" @default.
W4386880420 abstract "The development of renewable energy sources has grown increasingly as the world shifts toward lowering carbon emissions and supporting sustainability. Solar energy is one of the most promising renewable energy sources, and its harvesting potential has gone beyond typical solar panels to small, portable devices. Also, the trend toward smart buildings is becoming more prevalent at the same time as sensors and small devices are becoming more integrated, and the demand for dependable, sustainable energy sources will increase. Our work aims to tackle the issue of identifying the most suitable protective layer for small optical devices that can efficiently utilize indoor light sources. To conduct our research, we designed and tested a model that allowed us to compare the performance of many small panels made of monocrystalline cells laminated with three different materials: epoxy resin, an ethylene–tetrafluoroethylene copolymer (ETFE), and polyethylene terephthalate (PET), under varying light intensities from LED and CFL sources. The methods employed encompass contact angle measurements of the protective layers, providing insights into their wettability and hydrophobicity, which indicates protective layer performance against humidity. Reflection spectroscopy was used to evaluate the panels’ reflectance properties across different wavelengths, which affect the light amount arrived at the solar cell. Furthermore, we characterized the PV panels’ electrical behavior by measuring short-circuit current (ISC), open-circuit voltage (VOC), maximum power output (Pmax), fill factor (FF), and load resistance (R). Our findings offer valuable insights into each PV panel’s performance and the protective layer material’s effect. Panels with ETFE layers exhibited remarkable hydrophobicity with a mean contact angle of 77.7°, indicating resistance against humidity-related effects. Also, panels with ETFE layers consistently outperformed others as they had the highest open circuit voltage (VOC) ranging between 1.63–4.08 V, fill factor (FF) between 35.9–67.3%, and lowest load resistance (R) ranging between 11,268–772 KΩ.cm−2 under diverse light intensities from various light sources, as determined by our results. This makes ETFE panels a promising option for indoor energy harvesting, especially for powering sensors with low power requirements. This information could influence future research in developing energy harvesting solutions, thereby making a valuable contribution to the progress of sustainable energy technology." @default.
W4386880420 created "2023-09-21" @default.
W4386880420 creator A5045291086 @default.
W4386880420 creator A5056632899 @default.
W4386880420 creator A5075993913 @default.
W4386880420 creator A5089760317 @default.
W4386880420 date "2023-09-20" @default.
W4386880420 modified "2023-10-17" @default.
W4386880420 title "Effect of Protective Layer on the Performance of Monocrystalline Silicon Cell for Indoor Light Harvesting" @default.
W4386880420 cites W101451940 @default.
W4386880420 cites W1772250494 @default.
W4386880420 cites W1952054358 @default.
W4386880420 cites W1952688567 @default.
W4386880420 cites W1965869205 @default.
W4386880420 cites W1977482191 @default.
W4386880420 cites W1994514760 @default.
W4386880420 cites W2003008339 @default.
W4386880420 cites W2011975950 @default.
W4386880420 cites W2031459056 @default.
W4386880420 cites W2034151099 @default.
W4386880420 cites W2041172694 @default.
W4386880420 cites W2042153290 @default.
W4386880420 cites W2043856783 @default.
W4386880420 cites W2052717035 @default.
W4386880420 cites W2079881866 @default.
W4386880420 cites W2131318989 @default.
W4386880420 cites W2173572382 @default.
W4386880420 cites W2270644212 @default.
W4386880420 cites W2345832409 @default.
W4386880420 cites W2548244257 @default.
W4386880420 cites W2610343300 @default.
W4386880420 cites W2613698212 @default.
W4386880420 cites W2614650280 @default.
W4386880420 cites W2734889919 @default.
W4386880420 cites W2755808684 @default.
W4386880420 cites W3001332660 @default.
W4386880420 cites W3023427160 @default.
W4386880420 cites W3197571762 @default.
W4386880420 cites W4220700077 @default.
W4386880420 cites W4281942074 @default.
W4386880420 cites W4322576353 @default.
W4386880420 doi "https://doi.org/10.3390/s23187995" @default.
W4386880420 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37766048" @default.
W4386880420 hasPublicationYear "2023" @default.
W4386880420 type Work @default.
W4386880420 citedByCount "0" @default.
W4386880420 crossrefType "journal-article" @default.
W4386880420 hasAuthorship W4386880420A5045291086 @default.
W4386880420 hasAuthorship W4386880420A5056632899 @default.
W4386880420 hasAuthorship W4386880420A5075993913 @default.
W4386880420 hasAuthorship W4386880420A5089760317 @default.
W4386880420 hasBestOaLocation W43868804201 @default.
W4386880420 hasConcept C119599485 @default.
W4386880420 hasConcept C127413603 @default.
W4386880420 hasConcept C159985019 @default.
W4386880420 hasConcept C188573790 @default.
W4386880420 hasConcept C192562407 @default.
W4386880420 hasConcept C26953177 @default.
W4386880420 hasConcept C2776221354 @default.
W4386880420 hasConcept C2779227376 @default.
W4386880420 hasConcept C2779667780 @default.
W4386880420 hasConcept C2780824857 @default.
W4386880420 hasConcept C39432304 @default.
W4386880420 hasConcept C41291067 @default.
W4386880420 hasConcept C49040817 @default.
W4386880420 hasConcept C544956773 @default.
W4386880420 hasConcept C61696701 @default.
W4386880420 hasConceptScore W4386880420C119599485 @default.
W4386880420 hasConceptScore W4386880420C127413603 @default.
W4386880420 hasConceptScore W4386880420C159985019 @default.
W4386880420 hasConceptScore W4386880420C188573790 @default.
W4386880420 hasConceptScore W4386880420C192562407 @default.
W4386880420 hasConceptScore W4386880420C26953177 @default.
W4386880420 hasConceptScore W4386880420C2776221354 @default.
W4386880420 hasConceptScore W4386880420C2779227376 @default.
W4386880420 hasConceptScore W4386880420C2779667780 @default.
W4386880420 hasConceptScore W4386880420C2780824857 @default.
W4386880420 hasConceptScore W4386880420C39432304 @default.
W4386880420 hasConceptScore W4386880420C41291067 @default.
W4386880420 hasConceptScore W4386880420C49040817 @default.
W4386880420 hasConceptScore W4386880420C544956773 @default.
W4386880420 hasConceptScore W4386880420C61696701 @default.
W4386880420 hasIssue "18" @default.
W4386880420 hasLocation W43868804201 @default.
W4386880420 hasLocation W43868804202 @default.
W4386880420 hasOpenAccess W4386880420 @default.
W4386880420 hasPrimaryLocation W43868804201 @default.
W4386880420 hasRelatedWork W1511606503 @default.
W4386880420 hasRelatedWork W2068494999 @default.
W4386880420 hasRelatedWork W2071612068 @default.
W4386880420 hasRelatedWork W2083874984 @default.
W4386880420 hasRelatedWork W2150821708 @default.
W4386880420 hasRelatedWork W2156182039 @default.
W4386880420 hasRelatedWork W2163262410 @default.
W4386880420 hasRelatedWork W2791649027 @default.
W4386880420 hasRelatedWork W3006941797 @default.
W4386880420 hasRelatedWork W3147652570 @default.
W4386880420 hasVolume "23" @default.