SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3201260972> ?p ?o ?g. }

Showing items 1 to 100 of ±166 with 100 items per page.

W3201260972 endingPage "208" @default.
W3201260972 startingPage "194" @default.
W3201260972 abstract "As a result of the increase in industrial activities and the extensive use of automobiles, air pollutants, especially carbon monoxide, reach the alarm level. The removal of carbon monoxide through oxidation is still one of the best tactics so far. Therefore, looking for an active and durable catalyst is considered the key factor for improving the oxidation process. In this work, Pd nanoparticles (1.0, 3.0 and 5.0 wt.%) were supported onto reduced graphene oxide / copper metal organic framework nanocomposite ([email protected]) through one pot solvothermal synthesis method. The catalysts were thoroughly characterized by state-of-the-art techniques such as XPS, SEM, TEM, XRD, N2 physisorption, and FT-IR. The results revealed that the Pd nanoparticles were exceptionally dispersed on [email protected] nanocomposite surface and the Cu-BTC crystals showed excellent octahedral structure with smooth edges as indicated SEM images. The results revealed that 3.0 wt. % Pd/[email protected] acts as an excellent catalyst in the CO oxidation as indicated by T50 and T100 values of 71 and 82 °C, respectively. Additionally, the results showed that rGO has a vital role in the dispersion of Pd NPs on the catalyst surface as well as the presence of surface oxygen groups, which yields higher catalytic activity compared with the catalyst without rGO." @default.
W3201260972 created "2021-09-27" @default.
W3201260972 creator A5007169494 @default.
W3201260972 creator A5020997650 @default.
W3201260972 creator A5037010369 @default.
W3201260972 creator A5043179374 @default.
W3201260972 creator A5044291279 @default.
W3201260972 creator A5045642376 @default.
W3201260972 creator A5078347980 @default.
W3201260972 creator A5082726896 @default.
W3201260972 date "2021-11-01" @default.
W3201260972 modified "2023-10-16" @default.
W3201260972 title "Enhanced Catalytic Activity for CO Oxidation by Highly Active Pd Nanoparticles Supported on Reduced Graphene Oxide /Copper Metal Organic Framework" @default.
W3201260972 cites W1032329491 @default.
W3201260972 cites W1965210034 @default.
W3201260972 cites W1965680514 @default.
W3201260972 cites W1969744315 @default.
W3201260972 cites W1970049538 @default.
W3201260972 cites W1979374999 @default.
W3201260972 cites W1990853155 @default.
W3201260972 cites W1993207925 @default.
W3201260972 cites W2018672696 @default.
W3201260972 cites W2028734359 @default.
W3201260972 cites W2031038667 @default.
W3201260972 cites W2047207971 @default.
W3201260972 cites W2052277542 @default.
W3201260972 cites W2056333364 @default.
W3201260972 cites W2063932522 @default.
W3201260972 cites W2069455779 @default.
W3201260972 cites W2071935927 @default.
W3201260972 cites W2075535386 @default.
W3201260972 cites W2075863854 @default.
W3201260972 cites W2079465097 @default.
W3201260972 cites W2080392146 @default.
W3201260972 cites W2082179062 @default.
W3201260972 cites W2084613695 @default.
W3201260972 cites W2110883943 @default.
W3201260972 cites W2116636720 @default.
W3201260972 cites W2119504742 @default.
W3201260972 cites W2121971338 @default.
W3201260972 cites W2133763506 @default.
W3201260972 cites W2151075585 @default.
W3201260972 cites W2157697955 @default.
W3201260972 cites W2162894172 @default.
W3201260972 cites W2163311695 @default.
W3201260972 cites W2278346516 @default.
W3201260972 cites W2298698147 @default.
W3201260972 cites W2321100100 @default.
W3201260972 cites W2329422603 @default.
W3201260972 cites W2469492116 @default.
W3201260972 cites W2513898569 @default.
W3201260972 cites W2533011446 @default.
W3201260972 cites W2565395599 @default.
W3201260972 cites W2567362682 @default.
W3201260972 cites W2606059630 @default.
W3201260972 cites W2606654070 @default.
W3201260972 cites W2613301177 @default.
W3201260972 cites W2789697008 @default.
W3201260972 cites W2805755779 @default.
W3201260972 cites W2810596607 @default.
W3201260972 cites W2890059434 @default.
W3201260972 cites W2902438762 @default.
W3201260972 cites W2903542346 @default.
W3201260972 cites W2908866965 @default.
W3201260972 cites W2914012566 @default.
W3201260972 cites W2937097113 @default.
W3201260972 cites W2945415532 @default.
W3201260972 cites W2951720841 @default.
W3201260972 cites W2957581283 @default.
W3201260972 cites W2966431035 @default.
W3201260972 cites W2997520728 @default.
W3201260972 cites W2999802986 @default.
W3201260972 cites W3006592233 @default.
W3201260972 cites W3028658815 @default.
W3201260972 cites W3033341433 @default.
W3201260972 cites W3083283923 @default.
W3201260972 cites W3094442894 @default.
W3201260972 cites W3121977655 @default.
W3201260972 cites W3157273463 @default.
W3201260972 cites W3175385490 @default.
W3201260972 cites W3183821381 @default.
W3201260972 doi "https://doi.org/10.1016/j.jtice.2021.08.034" @default.
W3201260972 hasPublicationYear "2021" @default.
W3201260972 type Work @default.
W3201260972 sameAs 3201260972 @default.
W3201260972 citedByCount "30" @default.
W3201260972 countsByYear W32012609722021 @default.
W3201260972 countsByYear W32012609722022 @default.
W3201260972 countsByYear W32012609722023 @default.
W3201260972 crossrefType "journal-article" @default.
W3201260972 hasAuthorship W3201260972A5007169494 @default.
W3201260972 hasAuthorship W3201260972A5020997650 @default.
W3201260972 hasAuthorship W3201260972A5037010369 @default.
W3201260972 hasAuthorship W3201260972A5043179374 @default.
W3201260972 hasAuthorship W3201260972A5044291279 @default.
W3201260972 hasAuthorship W3201260972A5045642376 @default.
W3201260972 hasAuthorship W3201260972A5078347980 @default.
W3201260972 hasAuthorship W3201260972A5082726896 @default.