SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2770802617> ?p ?o ?g. }

Showing items 1 to 100 of ±168 with 100 items per page.

W2770802617 endingPage "177" @default.
W2770802617 startingPage "169" @default.
W2770802617 abstract "The environmental performance of four different device assembly procedures based on hybrid halide perovskite solar cell (PSC) were assessed from cradle to grave using life cycle assessment (LCA) methodology. In addition, a new environmental indicator was defined to measure the time evolution of an impact category, specifically in this case, human toxicity cancer payback time. PSCs procedures accounted for the probably three more used basic recipes for laboratory perovskite deposition: 1) spin coating of stoichiometric precursor solution, 2) spin coating of precursor solution using lead chloride precursor and 3) the two step deposition method. Also, the two most widely used substrate configurations (planar and mesoporous substrate)were considered. LCA included three realistic scenarios for the end of life: 1) residual landfill, 2) reuse and residual landfill and 3) reuse and recycling. The remaining variable parameters to assemble the device were fixed in common for all four devices, which were the major responsible of the whole PSC impact. Lead of PSCs had no significant contribution in environmental impacts. Beyond shared procedure steps, impacts generated by the two-step method and the use of mesostructured type substrate were higher. End of life scenario with reuse and recycling improved the toxicity impact categories." @default.
W2770802617 created "2017-12-04" @default.
W2770802617 creator A5013641153 @default.
W2770802617 creator A5024423448 @default.
W2770802617 creator A5032507579 @default.
W2770802617 creator A5044565257 @default.
W2770802617 creator A5062495634 @default.
W2770802617 creator A5073986862 @default.
W2770802617 date "2018-06-01" @default.
W2770802617 modified "2023-10-11" @default.
W2770802617 title "Relative impacts of methylammonium lead triiodide perovskite solar cells based on life cycle assessment" @default.
W2770802617 cites W1501611312 @default.
W2770802617 cites W1547381135 @default.
W2770802617 cites W1569922368 @default.
W2770802617 cites W1629273100 @default.
W2770802617 cites W1896289247 @default.
W2770802617 cites W1964153139 @default.
W2770802617 cites W1965600793 @default.
W2770802617 cites W1987102311 @default.
W2770802617 cites W1988740444 @default.
W2770802617 cites W2000114161 @default.
W2770802617 cites W2013233106 @default.
W2770802617 cites W2019162166 @default.
W2770802617 cites W2030804336 @default.
W2770802617 cites W2041391801 @default.
W2770802617 cites W2045094852 @default.
W2770802617 cites W2046035832 @default.
W2770802617 cites W2046059764 @default.
W2770802617 cites W2050212459 @default.
W2770802617 cites W2054966524 @default.
W2770802617 cites W2056616404 @default.
W2770802617 cites W2061063351 @default.
W2770802617 cites W2061495489 @default.
W2770802617 cites W2066938000 @default.
W2770802617 cites W2076208415 @default.
W2770802617 cites W2079650826 @default.
W2770802617 cites W2091471276 @default.
W2770802617 cites W2102969048 @default.
W2770802617 cites W2105613360 @default.
W2770802617 cites W2108685002 @default.
W2770802617 cites W2114118829 @default.
W2770802617 cites W2120011710 @default.
W2770802617 cites W2121911357 @default.
W2770802617 cites W2132544687 @default.
W2770802617 cites W2134847515 @default.
W2770802617 cites W2136487843 @default.
W2770802617 cites W2136672396 @default.
W2770802617 cites W2146346282 @default.
W2770802617 cites W2147058642 @default.
W2770802617 cites W2163231468 @default.
W2770802617 cites W2169328609 @default.
W2770802617 cites W2172511679 @default.
W2770802617 cites W2268497559 @default.
W2770802617 cites W2277560939 @default.
W2770802617 cites W2294400103 @default.
W2770802617 cites W2307803660 @default.
W2770802617 cites W2312666999 @default.
W2770802617 cites W2320570420 @default.
W2770802617 cites W2341485001 @default.
W2770802617 cites W2347124623 @default.
W2770802617 cites W2407334816 @default.
W2770802617 cites W2413615099 @default.
W2770802617 cites W2559259081 @default.
W2770802617 cites W2592388375 @default.
W2770802617 cites W2599241597 @default.
W2770802617 cites W4213223053 @default.
W2770802617 cites W4235059140 @default.
W2770802617 doi "https://doi.org/10.1016/j.solmat.2017.11.008" @default.
W2770802617 hasPublicationYear "2018" @default.
W2770802617 type Work @default.
W2770802617 sameAs 2770802617 @default.
W2770802617 citedByCount "32" @default.
W2770802617 countsByYear W27708026172018 @default.
W2770802617 countsByYear W27708026172019 @default.
W2770802617 countsByYear W27708026172020 @default.
W2770802617 countsByYear W27708026172021 @default.
W2770802617 countsByYear W27708026172022 @default.
W2770802617 countsByYear W27708026172023 @default.
W2770802617 crossrefType "journal-article" @default.
W2770802617 hasAuthorship W2770802617A5013641153 @default.
W2770802617 hasAuthorship W2770802617A5024423448 @default.
W2770802617 hasAuthorship W2770802617A5032507579 @default.
W2770802617 hasAuthorship W2770802617A5044565257 @default.
W2770802617 hasAuthorship W2770802617A5062495634 @default.
W2770802617 hasAuthorship W2770802617A5073986862 @default.
W2770802617 hasBestOaLocation W27708026172 @default.
W2770802617 hasConcept C111368507 @default.
W2770802617 hasConcept C127313418 @default.
W2770802617 hasConcept C127413603 @default.
W2770802617 hasConcept C139719470 @default.
W2770802617 hasConcept C147789679 @default.
W2770802617 hasConcept C155011858 @default.
W2770802617 hasConcept C161790260 @default.
W2770802617 hasConcept C162324750 @default.
W2770802617 hasConcept C171560689 @default.
W2770802617 hasConcept C17525397 @default.
W2770802617 hasConcept C178790620 @default.
W2770802617 hasConcept C179104552 @default.