SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2894909860> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W2894909860 endingPage "496" @default.
W2894909860 startingPage "488" @default.
W2894909860 abstract "Abstract This work demonstrates that carbon nanotube (CNT) fiber electrodes consisting of a mesoporous and crystalline network of few-layer CNTs can be used as free-standing, unipolar, and dual counter-electrode (CE)/current-collectors in highly efficient and stable planar dye-sensitized solar cells (DSSCs). After device optimization, particularly in terms of photoanode thickness, the solar energy conversion efficiency reached 8.8%, which is comparable to devices with platinum CE (8.7%). Through study of symmetric cells using electrochemical impedance spectroscopy (EIS) measurements, this work discloses the first clear identification of the different processes involved in the use of CNTf electrodes as CE, namely bulk ion diffusion, ion diffusion inside the mesoporous electrode, and charge transfer at the CNT surface. These results provide clear directors for a further understanding of the fundamental catalytic properties of CNTf fibers towards improving their photoelectrochemical features. Finally, we assemble new device architectures, namely i) a free-standing CNT-CEs (unipolar electrode) device with two photoanodes facing each other to circumvent the lack of transparency of CNTs without losing performance, and ii) large-area solar cells (>10 cm2) with 10 devices interconnected in parallel along 1 m continuous CNTf-CE, featuring efficiencies comparable to the-state-of-the-art carbon-based DSSC modules." @default.
W2894909860 created "2018-10-12" @default.
W2894909860 creator A5043783689 @default.
W2894909860 creator A5051315349 @default.
W2894909860 creator A5074355883 @default.
W2894909860 date "2019-01-01" @default.
W2894909860 modified "2023-10-17" @default.
W2894909860 title "CNT fibres as dual counter-electrode/current-collector in highly efficient and stable dye-sensitized solar cells" @default.
W2894909860 cites W1558665342 @default.
W2894909860 cites W1967416226 @default.
W2894909860 cites W1974250089 @default.
W2894909860 cites W1977866366 @default.
W2894909860 cites W1982190196 @default.
W2894909860 cites W1993053826 @default.
W2894909860 cites W1993367612 @default.
W2894909860 cites W1995532437 @default.
W2894909860 cites W1995991415 @default.
W2894909860 cites W1998795031 @default.
W2894909860 cites W2004681787 @default.
W2894909860 cites W2009941888 @default.
W2894909860 cites W2016455435 @default.
W2894909860 cites W2017887606 @default.
W2894909860 cites W2020870084 @default.
W2894909860 cites W2021446293 @default.
W2894909860 cites W2027563442 @default.
W2894909860 cites W2031278033 @default.
W2894909860 cites W2037826570 @default.
W2894909860 cites W2046277723 @default.
W2894909860 cites W2053135769 @default.
W2894909860 cites W2053163132 @default.
W2894909860 cites W2054247095 @default.
W2894909860 cites W2056675518 @default.
W2894909860 cites W2064195144 @default.
W2894909860 cites W2065364582 @default.
W2894909860 cites W2074397942 @default.
W2894909860 cites W2076870514 @default.
W2894909860 cites W2086819155 @default.
W2894909860 cites W2087778376 @default.
W2894909860 cites W2093619156 @default.
W2894909860 cites W2095062688 @default.
W2894909860 cites W2098180838 @default.
W2894909860 cites W2104703465 @default.
W2894909860 cites W2105253087 @default.
W2894909860 cites W2108600740 @default.
W2894909860 cites W2111658531 @default.
W2894909860 cites W2121788066 @default.
W2894909860 cites W2132085744 @default.
W2894909860 cites W2134982371 @default.
W2894909860 cites W2162247478 @default.
W2894909860 cites W2168994253 @default.
W2894909860 cites W2223048579 @default.
W2894909860 cites W2230374711 @default.
W2894909860 cites W2235376001 @default.
W2894909860 cites W2257319954 @default.
W2894909860 cites W2288727945 @default.
W2894909860 cites W2298205316 @default.
W2894909860 cites W2319084752 @default.
W2894909860 cites W2332054272 @default.
W2894909860 cites W2404998127 @default.
W2894909860 cites W2417601262 @default.
W2894909860 cites W2472545784 @default.
W2894909860 cites W2503518921 @default.
W2894909860 cites W2508449109 @default.
W2894909860 cites W2569748369 @default.
W2894909860 cites W2580243119 @default.
W2894909860 cites W2580734187 @default.
W2894909860 cites W2600574737 @default.
W2894909860 cites W2602794896 @default.
W2894909860 cites W2610343300 @default.
W2894909860 cites W2626366778 @default.
W2894909860 cites W2778037346 @default.
W2894909860 cites W2790669870 @default.
W2894909860 cites W3098545345 @default.
W2894909860 cites W577736987 @default.
W2894909860 doi "https://doi.org/10.1016/j.carbon.2018.09.090" @default.
W2894909860 hasPublicationYear "2019" @default.
W2894909860 type Work @default.
W2894909860 sameAs 2894909860 @default.
W2894909860 citedByCount "42" @default.
W2894909860 countsByYear W28949098602019 @default.
W2894909860 countsByYear W28949098602020 @default.
W2894909860 countsByYear W28949098602021 @default.
W2894909860 countsByYear W28949098602022 @default.
W2894909860 countsByYear W28949098602023 @default.
W2894909860 crossrefType "journal-article" @default.
W2894909860 hasAuthorship W2894909860A5043783689 @default.
W2894909860 hasAuthorship W2894909860A5051315349 @default.
W2894909860 hasAuthorship W2894909860A5074355883 @default.
W2894909860 hasConcept C119599485 @default.
W2894909860 hasConcept C124952713 @default.
W2894909860 hasConcept C127413603 @default.
W2894909860 hasConcept C142362112 @default.
W2894909860 hasConcept C147789679 @default.
W2894909860 hasConcept C148043351 @default.
W2894909860 hasConcept C159985019 @default.
W2894909860 hasConcept C17525397 @default.
W2894909860 hasConcept C185592680 @default.
W2894909860 hasConcept C185910354 @default.