SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220815511> ?p ?o ?g. }

Showing items 1 to 100 of ±162 with 100 items per page.

W4220815511 endingPage "1131" @default.
W4220815511 startingPage "1131" @default.
W4220815511 abstract "Photoanodes consisting of titania nanotubes (TNTs) grown on transparent conductive oxides (TCO) by anodic oxidation are being widely investigated as a low-cost alternative to silicon-based materials, e.g., in solar light-harvesting applications. Intending to enhance the optical properties of those photoanodes, the modification of the surface chemistry or control of the geometrical characteristics of developed TNTs has been explored. In this review, the recent advancement in light-harvesting properties of transparent anodic TNTs formed onto TCO is summarized. The physical deposition methods such as magnetron sputtering, pulsed laser deposition and electron beam evaporation are the most reported for the deposition of Ti film onto TCO, which are subsequently anodized. A concise description of methods utilized to improve the adhesion of the deposited film and achieve TNT layers without cracks and delamination after the anodization is outlined. Then, the different models describing the formation mechanism of anodic TNTs are discussed with particular focus on the impact of the deposited Ti film thickness on the adhesion of TNTs. Finally, the effects of the modifications of both the surface chemistry and morphological features of materials on their photocatalyst and photovoltaic performances are discussed. For each section, experimental results obtained by different research groups are evoked." @default.
W4220815511 created "2022-04-03" @default.
W4220815511 creator A5037614915 @default.
W4220815511 creator A5039043497 @default.
W4220815511 creator A5082279488 @default.
W4220815511 date "2022-03-29" @default.
W4220815511 modified "2023-09-27" @default.
W4220815511 title "The Anodization of Thin Titania Layers as a Facile Process towards Semitransparent and Ordered Electrode Material" @default.
W4220815511 cites W1170431378 @default.
W4220815511 cites W1768967549 @default.
W4220815511 cites W1967203745 @default.
W4220815511 cites W1970699707 @default.
W4220815511 cites W1979409481 @default.
W4220815511 cites W1988525106 @default.
W4220815511 cites W1989456217 @default.
W4220815511 cites W1995381457 @default.
W4220815511 cites W1997095649 @default.
W4220815511 cites W2014486832 @default.
W4220815511 cites W2020644239 @default.
W4220815511 cites W2024489971 @default.
W4220815511 cites W2026495049 @default.
W4220815511 cites W2026739418 @default.
W4220815511 cites W2030258972 @default.
W4220815511 cites W2048870996 @default.
W4220815511 cites W2056309494 @default.
W4220815511 cites W2058575272 @default.
W4220815511 cites W2063523416 @default.
W4220815511 cites W2068026510 @default.
W4220815511 cites W2068423320 @default.
W4220815511 cites W2070038554 @default.
W4220815511 cites W2072833245 @default.
W4220815511 cites W2094155413 @default.
W4220815511 cites W2105749448 @default.
W4220815511 cites W2111962823 @default.
W4220815511 cites W2119760459 @default.
W4220815511 cites W2137423063 @default.
W4220815511 cites W2152140231 @default.
W4220815511 cites W2155804442 @default.
W4220815511 cites W2170925101 @default.
W4220815511 cites W2317419752 @default.
W4220815511 cites W2328006448 @default.
W4220815511 cites W2467134817 @default.
W4220815511 cites W2522646115 @default.
W4220815511 cites W2529922374 @default.
W4220815511 cites W2587903596 @default.
W4220815511 cites W2598067219 @default.
W4220815511 cites W2612595624 @default.
W4220815511 cites W2763133679 @default.
W4220815511 cites W2768211868 @default.
W4220815511 cites W2782158620 @default.
W4220815511 cites W2783620861 @default.
W4220815511 cites W2806636463 @default.
W4220815511 cites W2810877829 @default.
W4220815511 cites W2811093880 @default.
W4220815511 cites W2820983647 @default.
W4220815511 cites W2888972270 @default.
W4220815511 cites W2889141809 @default.
W4220815511 cites W2897149839 @default.
W4220815511 cites W2909601180 @default.
W4220815511 cites W2953220009 @default.
W4220815511 cites W2969922494 @default.
W4220815511 cites W2981837346 @default.
W4220815511 cites W3001532990 @default.
W4220815511 cites W3015978257 @default.
W4220815511 cites W3034402266 @default.
W4220815511 cites W3036776443 @default.
W4220815511 cites W3037767146 @default.
W4220815511 cites W3042107307 @default.
W4220815511 cites W3045361522 @default.
W4220815511 cites W3045621121 @default.
W4220815511 cites W3067793509 @default.
W4220815511 cites W3081471749 @default.
W4220815511 cites W3111956081 @default.
W4220815511 cites W3121708956 @default.
W4220815511 cites W3122089143 @default.
W4220815511 cites W3127451143 @default.
W4220815511 cites W3136454525 @default.
W4220815511 cites W3137970803 @default.
W4220815511 cites W3144059115 @default.
W4220815511 cites W3157896670 @default.
W4220815511 cites W3162032824 @default.
W4220815511 cites W3175155926 @default.
W4220815511 cites W3195950202 @default.
W4220815511 cites W3196334525 @default.
W4220815511 cites W4235429680 @default.
W4220815511 doi "https://doi.org/10.3390/nano12071131" @default.
W4220815511 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35407248" @default.
W4220815511 hasPublicationYear "2022" @default.
W4220815511 type Work @default.
W4220815511 citedByCount "4" @default.
W4220815511 countsByYear W42208155112022 @default.
W4220815511 countsByYear W42208155112023 @default.
W4220815511 crossrefType "journal-article" @default.
W4220815511 hasAuthorship W4220815511A5037614915 @default.
W4220815511 hasAuthorship W4220815511A5039043497 @default.
W4220815511 hasAuthorship W4220815511A5082279488 @default.
W4220815511 hasBestOaLocation W42208155111 @default.
W4220815511 hasConcept C121332964 @default.