SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4311475933> ?p ?o ?g. }

Showing items 1 to 100 of ±165 with 100 items per page.

W4311475933 endingPage "110311" @default.
W4311475933 startingPage "110311" @default.
W4311475933 abstract "Zinc oxide nanoparticles were synthesized using glycine nitrate solution combustion synthesis. The characterization was carried out using powder X-ray diffraction (XRD), Fourier transform infrared spectra (FT-IR), photoluminescence and Ultraviolet –Visible (UV–Visible) and Field emission SEM (FESEM) techniques. X-ray diffraction and Fourier transform confirmed the formation of pure hexagonal wurtzite like structure of ZnO. The metal–oxygen bonding was detected in FT-IR spectra. The crystallite size of the particles was found to be around 18.5 nm. The nanoparticles were utilized as a visible light catalyst for degradation studies of methylene blue dye. The effect of initial dye concentration, pH variation, and catalyst loading were evaluated. The nanoparticles synthesized were found to be effective for the degradation of methylene blue dye in visible irradiation, degrading 98 % dye in 120 min with 0.1 g/L of catalyst loading. The results were compared with literature reports, and a possible mechanism for degradation of methylene blue dye was studied with the help of photoluminescence studies. Broad green emission observed at 573 nm attributed to singly ionized oxygen vacancy or intrinsic defects may be the responsible factors for enhanced photocatalytic activity under visible light." @default.
W4311475933 created "2022-12-26" @default.
W4311475933 creator A5008952991 @default.
W4311475933 creator A5022275703 @default.
W4311475933 creator A5027306662 @default.
W4311475933 creator A5044220482 @default.
W4311475933 creator A5058321280 @default.
W4311475933 creator A5068226550 @default.
W4311475933 date "2023-02-01" @default.
W4311475933 modified "2023-10-10" @default.
W4311475933 title "Visible light driven photocatalytic degradation of methylene blue by ZnO nanostructures synthesized by glycine nitrate auto combustion route" @default.
W4311475933 cites W1829643206 @default.
W4311475933 cites W1906682345 @default.
W4311475933 cites W1966164787 @default.
W4311475933 cites W1967915004 @default.
W4311475933 cites W1971113415 @default.
W4311475933 cites W1985688950 @default.
W4311475933 cites W2001067202 @default.
W4311475933 cites W2004784451 @default.
W4311475933 cites W2009566717 @default.
W4311475933 cites W2011224761 @default.
W4311475933 cites W2017590296 @default.
W4311475933 cites W2030003022 @default.
W4311475933 cites W2031439055 @default.
W4311475933 cites W2036216009 @default.
W4311475933 cites W2036530096 @default.
W4311475933 cites W2037906993 @default.
W4311475933 cites W2041252930 @default.
W4311475933 cites W2042492216 @default.
W4311475933 cites W2045634141 @default.
W4311475933 cites W2048393377 @default.
W4311475933 cites W2052989605 @default.
W4311475933 cites W2055841143 @default.
W4311475933 cites W2058073908 @default.
W4311475933 cites W2061601057 @default.
W4311475933 cites W2078301208 @default.
W4311475933 cites W2080844611 @default.
W4311475933 cites W2096103636 @default.
W4311475933 cites W2100583227 @default.
W4311475933 cites W2130999123 @default.
W4311475933 cites W2136590395 @default.
W4311475933 cites W2136661114 @default.
W4311475933 cites W2145274462 @default.
W4311475933 cites W2156973562 @default.
W4311475933 cites W2223998303 @default.
W4311475933 cites W2324067482 @default.
W4311475933 cites W2328062150 @default.
W4311475933 cites W2466044895 @default.
W4311475933 cites W2492490206 @default.
W4311475933 cites W2568474730 @default.
W4311475933 cites W2588962311 @default.
W4311475933 cites W2591318157 @default.
W4311475933 cites W2594400758 @default.
W4311475933 cites W2597530230 @default.
W4311475933 cites W2600175462 @default.
W4311475933 cites W2744023203 @default.
W4311475933 cites W2748928903 @default.
W4311475933 cites W2765820351 @default.
W4311475933 cites W2765885052 @default.
W4311475933 cites W2772437455 @default.
W4311475933 cites W2782216341 @default.
W4311475933 cites W2791706211 @default.
W4311475933 cites W2794130057 @default.
W4311475933 cites W2884669891 @default.
W4311475933 cites W2885431865 @default.
W4311475933 cites W2890234472 @default.
W4311475933 cites W2892057781 @default.
W4311475933 cites W2892211468 @default.
W4311475933 cites W2900025910 @default.
W4311475933 cites W2901323223 @default.
W4311475933 cites W2914856340 @default.
W4311475933 cites W2921164895 @default.
W4311475933 cites W2944229963 @default.
W4311475933 cites W2953441923 @default.
W4311475933 cites W2963222767 @default.
W4311475933 cites W2963623214 @default.
W4311475933 cites W2969459623 @default.
W4311475933 cites W2974277278 @default.
W4311475933 cites W2991072874 @default.
W4311475933 cites W2992618115 @default.
W4311475933 cites W3000159550 @default.
W4311475933 cites W3002555455 @default.
W4311475933 cites W3009606479 @default.
W4311475933 cites W3057052905 @default.
W4311475933 cites W3081345647 @default.
W4311475933 cites W3088174026 @default.
W4311475933 cites W3121902365 @default.
W4311475933 cites W3168504986 @default.
W4311475933 cites W3178235913 @default.
W4311475933 cites W3189101746 @default.
W4311475933 cites W4200310596 @default.
W4311475933 cites W4211024534 @default.
W4311475933 cites W4289745837 @default.
W4311475933 cites W782636380 @default.
W4311475933 doi "https://doi.org/10.1016/j.inoche.2022.110311" @default.
W4311475933 hasPublicationYear "2023" @default.
W4311475933 type Work @default.
W4311475933 citedByCount "7" @default.