SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2997336318> ?p ?o ?g. }

Showing items 1 to 100 of ±141 with 100 items per page.

W2997336318 endingPage "4389" @default.
W2997336318 startingPage "4376" @default.
W2997336318 abstract "Abstract Despite substantial interest on the influence of heat treatment on the activity of anodic TiO2 films, there is still a lack of systematic studies addressing the differences in photocatalytic and photoelectrochemical performance of thermally annealed anodic TiO2 layers. Here we addressed this problem on hierarchical anodic titanium oxide (ATO) layers consisting of an outer layer with large pores (rings) and inner layer with sub-pores were obtained by a three-step anodization of titanium. The ATO layers were formed at 20 °C in an ethylene glycol solution containing 0.38 wt% NH4F and 1.79 wt% H2O at the constant anodizing voltage of 70 V. The resulting amorphous ATO was annealed at 400, 500, and 600 °C in order to obtain photoactive anatase and anatase-rutile mixed phases. The characterization of ATO was performed by electron scanning microscopy (SEM/EDS), X-ray diffraction (XRD), low-temperature nitrogen sorption measurements (BET surface area), and electrochemical impedance spectroscopy (EIS). A gradual decrease in the BET surface area of ATO was observed with increasing annealing temperature due to the clogging of the sub-pores resulting from the sintering of anatase grains. EIS study and the Mott-Schottky analysis suggested that conductivity of ATO changed due to the reduced fluorine content in the anodic oxide layer, with donor densities decreasing from 1.78 ⋅ 10 18 cm − 3 to 4.08 ⋅ 10 17 cm − 3 . Raising the annealing temperature also caused a shift of the flat band potential towards more negative values, which is correlated with an increase in rutile content and consequently a decrease in band gap from 3.26 eV to 3.09 eV. The photoelectrochemical performance of the annealed TiO2 was studied under pulsed UV illumination. The highest photoconversion efficiencies were observed for the wavelength of 350 nm for the ATO sample with the dominant anatase content. The photocatalytic degradation of methyl red and toluidine blue dyes was highest on the ATO layers annealed at 500 °C. After 9 h, the total removal of each dye was about 80% and a decrease in total carbon (TC) by 55.3% was observed." @default.
W2997336318 created "2020-01-10" @default.
W2997336318 creator A5001499425 @default.
W2997336318 creator A5007986677 @default.
W2997336318 creator A5027237474 @default.
W2997336318 creator A5027328105 @default.
W2997336318 creator A5039629494 @default.
W2997336318 creator A5044428349 @default.
W2997336318 creator A5055083074 @default.
W2997336318 creator A5061803587 @default.
W2997336318 creator A5089916706 @default.
W2997336318 date "2020-02-01" @default.
W2997336318 modified "2023-10-18" @default.
W2997336318 title "Reactive and morphological trends on porous anodic TiO2 substrates obtained at different annealing temperatures" @default.
W2997336318 cites W1482807645 @default.
W2997336318 cites W1858415095 @default.
W2997336318 cites W1966463392 @default.
W2997336318 cites W1967344963 @default.
W2997336318 cites W1974880032 @default.
W2997336318 cites W1976189859 @default.
W2997336318 cites W1976241832 @default.
W2997336318 cites W1987647250 @default.
W2997336318 cites W1995636950 @default.
W2997336318 cites W1995909573 @default.
W2997336318 cites W2000420791 @default.
W2997336318 cites W2004001426 @default.
W2997336318 cites W2004964433 @default.
W2997336318 cites W2006102206 @default.
W2997336318 cites W2009244463 @default.
W2997336318 cites W2015791228 @default.
W2997336318 cites W2018204971 @default.
W2997336318 cites W2023102155 @default.
W2997336318 cites W2023369014 @default.
W2997336318 cites W2024043474 @default.
W2997336318 cites W2025795683 @default.
W2997336318 cites W2027901695 @default.
W2997336318 cites W2034961076 @default.
W2997336318 cites W2035054419 @default.
W2997336318 cites W2035556653 @default.
W2997336318 cites W2038239695 @default.
W2997336318 cites W2042689028 @default.
W2997336318 cites W2047205370 @default.
W2997336318 cites W2048985744 @default.
W2997336318 cites W2056217558 @default.
W2997336318 cites W2059131728 @default.
W2997336318 cites W2060713019 @default.
W2997336318 cites W2061601057 @default.
W2997336318 cites W2062844307 @default.
W2997336318 cites W2064802860 @default.
W2997336318 cites W2070129395 @default.
W2997336318 cites W2071210343 @default.
W2997336318 cites W2074581230 @default.
W2997336318 cites W2078491726 @default.
W2997336318 cites W2084690520 @default.
W2997336318 cites W2122448844 @default.
W2997336318 cites W2124865434 @default.
W2997336318 cites W2146733816 @default.
W2997336318 cites W2148356640 @default.
W2997336318 cites W2157237145 @default.
W2997336318 cites W2168032124 @default.
W2997336318 cites W2170279379 @default.
W2997336318 cites W2203891618 @default.
W2997336318 cites W2305195750 @default.
W2997336318 cites W2314308702 @default.
W2997336318 cites W2324302040 @default.
W2997336318 cites W2344707283 @default.
W2997336318 cites W2475108265 @default.
W2997336318 cites W2587078759 @default.
W2997336318 cites W2604515614 @default.
W2997336318 cites W2789752606 @default.
W2997336318 cites W2790859328 @default.
W2997336318 cites W2793139993 @default.
W2997336318 cites W2794290168 @default.
W2997336318 cites W2802982703 @default.
W2997336318 cites W2807715044 @default.
W2997336318 cites W2886911830 @default.
W2997336318 cites W2910815659 @default.
W2997336318 cites W843007777 @default.
W2997336318 doi "https://doi.org/10.1016/j.ijhydene.2019.11.213" @default.
W2997336318 hasPublicationYear "2020" @default.
W2997336318 type Work @default.
W2997336318 sameAs 2997336318 @default.
W2997336318 citedByCount "16" @default.
W2997336318 countsByYear W29973363182020 @default.
W2997336318 countsByYear W29973363182021 @default.
W2997336318 countsByYear W29973363182022 @default.
W2997336318 countsByYear W29973363182023 @default.
W2997336318 crossrefType "journal-article" @default.
W2997336318 hasAuthorship W2997336318A5001499425 @default.
W2997336318 hasAuthorship W2997336318A5007986677 @default.
W2997336318 hasAuthorship W2997336318A5027237474 @default.
W2997336318 hasAuthorship W2997336318A5027328105 @default.
W2997336318 hasAuthorship W2997336318A5039629494 @default.
W2997336318 hasAuthorship W2997336318A5044428349 @default.
W2997336318 hasAuthorship W2997336318A5055083074 @default.
W2997336318 hasAuthorship W2997336318A5061803587 @default.
W2997336318 hasAuthorship W2997336318A5089916706 @default.
W2997336318 hasConcept C105569014 @default.