SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2886298623> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W2886298623 endingPage "29" @default.
W2886298623 startingPage "23" @default.
W2886298623 abstract "Abstract The photoelectrocatalytic CO2 reduction is an attracting research field in chemistry, materials, environment and energy science. In this paper, a heterojunction TiO2@ZnO was in-situ fabricated onto the FTO glass. The multi-functionalized heterojunctions of M-TiO2@ZnO/FTO (M = Pd, Pt, Ni and Au) were used as photocathodes in the photoelectrocatalytic cell of dye/M-TiO2@ZnO/FTO|KHCO3|BiVO4. The working electrodes of dye/M-TiO2@ZnO/FTO were characterized by SEM, TEM, XRD, EPR, UV–vis, and FT-IR spectra. These photoelectrocatalytic cells convert efficiently CO2 to hydrocarbons at voltage of −0.6 ∼ − 1.0 V under simulated sunlight irradiation. The conduction band potential of heterojunction TiO2@ZnO/FTO was adjusted by metal deposition, including Pd, Pt, Ni and Au, which can basically affect the process of CO2 reduction and give different selectivity for hydrocarbons, such as, methanol, ethanol, formic acid and acetic acid. The M-TiO2@ZnO/FTO photocathodes, possessing lower conduction band (CB) than − 0.38 V of standard reduction for methanol, can produce hydrocarbons due to the action of photons. On the other hand, the high electron charge transfer and active Ti3+ cations of TiO2@ZnO/FTO heterojunction could augment the activity of photoelectrocatalytic reduction of carbon dioxide, yielding total hydrocarbons in a formation rate of 62.4 μM cm−2 h−1." @default.
W2886298623 created "2018-08-22" @default.
W2886298623 creator A5004532219 @default.
W2886298623 creator A5009780764 @default.
W2886298623 creator A5011704640 @default.
W2886298623 creator A5015858067 @default.
W2886298623 creator A5030534238 @default.
W2886298623 creator A5053792317 @default.
W2886298623 creator A5089325282 @default.
W2886298623 date "2018-09-01" @default.
W2886298623 modified "2023-10-16" @default.
W2886298623 title "The photoelectrocatalytic CO2 reduction on TiO2@ZnO heterojunction by tuning the conduction band potential" @default.
W2886298623 cites W1829643206 @default.
W2886298623 cites W1965122909 @default.
W2886298623 cites W1968958940 @default.
W2886298623 cites W1975109963 @default.
W2886298623 cites W1981764536 @default.
W2886298623 cites W1985728643 @default.
W2886298623 cites W1986145408 @default.
W2886298623 cites W1996412727 @default.
W2886298623 cites W2000786394 @default.
W2886298623 cites W2005794697 @default.
W2886298623 cites W2009333291 @default.
W2886298623 cites W2014392806 @default.
W2886298623 cites W2036833311 @default.
W2886298623 cites W2039786475 @default.
W2886298623 cites W2053331232 @default.
W2886298623 cites W2063129680 @default.
W2886298623 cites W2065806408 @default.
W2886298623 cites W2068389071 @default.
W2886298623 cites W2083709179 @default.
W2886298623 cites W2110983176 @default.
W2886298623 cites W2113297314 @default.
W2886298623 cites W2156843787 @default.
W2886298623 cites W2156898816 @default.
W2886298623 cites W2158255246 @default.
W2886298623 cites W2189000696 @default.
W2886298623 cites W2192176468 @default.
W2886298623 cites W2227974961 @default.
W2886298623 cites W2283450642 @default.
W2886298623 cites W2322944625 @default.
W2886298623 cites W2323767456 @default.
W2886298623 cites W2327086287 @default.
W2886298623 cites W2331264659 @default.
W2886298623 cites W2333139765 @default.
W2886298623 cites W2387742079 @default.
W2886298623 cites W2432702467 @default.
W2886298623 cites W2467876555 @default.
W2886298623 cites W2515152431 @default.
W2886298623 cites W2530268118 @default.
W2886298623 cites W2546920697 @default.
W2886298623 cites W2572548781 @default.
W2886298623 cites W2593109810 @default.
W2886298623 cites W2594022920 @default.
W2886298623 cites W2602945725 @default.
W2886298623 cites W2706221681 @default.
W2886298623 cites W2734862560 @default.
W2886298623 cites W2735222499 @default.
W2886298623 cites W2737038893 @default.
W2886298623 cites W2747583827 @default.
W2886298623 cites W2780908729 @default.
W2886298623 doi "https://doi.org/10.1016/j.electacta.2018.07.216" @default.
W2886298623 hasPublicationYear "2018" @default.
W2886298623 type Work @default.
W2886298623 sameAs 2886298623 @default.
W2886298623 citedByCount "35" @default.
W2886298623 countsByYear W28862986232018 @default.
W2886298623 countsByYear W28862986232019 @default.
W2886298623 countsByYear W28862986232020 @default.
W2886298623 countsByYear W28862986232021 @default.
W2886298623 countsByYear W28862986232022 @default.
W2886298623 countsByYear W28862986232023 @default.
W2886298623 crossrefType "journal-article" @default.
W2886298623 hasAuthorship W2886298623A5004532219 @default.
W2886298623 hasAuthorship W2886298623A5009780764 @default.
W2886298623 hasAuthorship W2886298623A5011704640 @default.
W2886298623 hasAuthorship W2886298623A5015858067 @default.
W2886298623 hasAuthorship W2886298623A5030534238 @default.
W2886298623 hasAuthorship W2886298623A5053792317 @default.
W2886298623 hasAuthorship W2886298623A5089325282 @default.
W2886298623 hasConcept C111335779 @default.
W2886298623 hasConcept C121332964 @default.
W2886298623 hasConcept C147120987 @default.
W2886298623 hasConcept C159985019 @default.
W2886298623 hasConcept C171250308 @default.
W2886298623 hasConcept C172100665 @default.
W2886298623 hasConcept C185592680 @default.
W2886298623 hasConcept C192562407 @default.
W2886298623 hasConcept C2524010 @default.
W2886298623 hasConcept C27067764 @default.
W2886298623 hasConcept C33923547 @default.
W2886298623 hasConcept C49040817 @default.
W2886298623 hasConcept C62520636 @default.
W2886298623 hasConcept C79794668 @default.
W2886298623 hasConceptScore W2886298623C111335779 @default.
W2886298623 hasConceptScore W2886298623C121332964 @default.
W2886298623 hasConceptScore W2886298623C147120987 @default.
W2886298623 hasConceptScore W2886298623C159985019 @default.