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W2891008229 endingPage "370" @default.
W2891008229 startingPage "359" @default.
W2891008229 abstract "Abstract In this study, Co-doped NaBiO3 nanosheets with surface confined Co reactive sites were prepared and utilized to catalyze peroxymonosulfate (PMS) activation and further degrade ibuprofen. Characterization results indicate Co reactive sites were mainly confined in surface region of Co-doped NaBiO3 nanosheets with the atomic percentage of 6.9% on catalyst surface. Further, the system of Co-doped NaBiO3/PMS was constructed for ibuprofen degradation. The added ibuprofen (20 µmol L−1) was removed completely in 30 min in the co-use of PMS (1 mmol L−1) and Co-doped NaBiO3 (0.2 g L−1) at pH0 7.0. Moreover, ultra-low Co leaching of lower than 5 μg L−1 at pH0 5–10 was observed in 30 min. Thus, Co-doped NaBiO3 exhibited highly catalytic stability for ibuprofen degradation in the neutral solution during the ten successive degradation runs. By identifying reactive oxygen species and degradation intermediates of IBP, IBP degradation pathway mainly induced by the generated sulfate radicals in the system of Co-doped NaBiO3/PMS was proposed. These interesting findings shed some new insight on the design of supported Co catalysts with high catalytic and chemical stability for the oxidative decontamination." @default.
W2891008229 created "2018-09-27" @default.
W2891008229 creator A5057743637 @default.
W2891008229 creator A5077352796 @default.
W2891008229 creator A5083962881 @default.
W2891008229 creator A5091169763 @default.
W2891008229 date "2019-01-01" @default.
W2891008229 modified "2023-10-17" @default.
W2891008229 title "Co-doped NaBiO3 nanosheets with surface confined Co species: High catalytic activation of peroxymonosulfate and ultra-low Co leaching" @default.
W2891008229 cites W1127712305 @default.
W2891008229 cites W1965695073 @default.
W2891008229 cites W1969007799 @default.
W2891008229 cites W1976728827 @default.
W2891008229 cites W1992411968 @default.
W2891008229 cites W1997854946 @default.
W2891008229 cites W1997874634 @default.
W2891008229 cites W2000082462 @default.
W2891008229 cites W2000113778 @default.
W2891008229 cites W2001772886 @default.
W2891008229 cites W2002122720 @default.
W2891008229 cites W2007116337 @default.
W2891008229 cites W2009765015 @default.
W2891008229 cites W2010479638 @default.
W2891008229 cites W2017182795 @default.
W2891008229 cites W2019254973 @default.
W2891008229 cites W2019481860 @default.
W2891008229 cites W2019635083 @default.
W2891008229 cites W2019783449 @default.
W2891008229 cites W2021562578 @default.
W2891008229 cites W2021902829 @default.
W2891008229 cites W2023070382 @default.
W2891008229 cites W2030261406 @default.
W2891008229 cites W2030489752 @default.
W2891008229 cites W2030704743 @default.
W2891008229 cites W2031149317 @default.
W2891008229 cites W2035429631 @default.
W2891008229 cites W2038173949 @default.
W2891008229 cites W2042049555 @default.
W2891008229 cites W2042197568 @default.
W2891008229 cites W2042657941 @default.
W2891008229 cites W2043523915 @default.
W2891008229 cites W2044487432 @default.
W2891008229 cites W2045342647 @default.
W2891008229 cites W2046670028 @default.
W2891008229 cites W2048035963 @default.
W2891008229 cites W2050755687 @default.
W2891008229 cites W2054165611 @default.
W2891008229 cites W2055732623 @default.
W2891008229 cites W2058016171 @default.
W2891008229 cites W2060044938 @default.
W2891008229 cites W2063031193 @default.
W2891008229 cites W2063473628 @default.
W2891008229 cites W2065389307 @default.
W2891008229 cites W2065881882 @default.
W2891008229 cites W2069916097 @default.
W2891008229 cites W2071594787 @default.
W2891008229 cites W2073564719 @default.
W2891008229 cites W2074903254 @default.
W2891008229 cites W2081709688 @default.
W2891008229 cites W2085097801 @default.
W2891008229 cites W2085350707 @default.
W2891008229 cites W2092645630 @default.
W2891008229 cites W2093131958 @default.
W2891008229 cites W2094481683 @default.
W2891008229 cites W2094731216 @default.
W2891008229 cites W2098237556 @default.
W2891008229 cites W2107382242 @default.
W2891008229 cites W2144201434 @default.
W2891008229 cites W2152731977 @default.
W2891008229 cites W2165358410 @default.
W2891008229 cites W2166354958 @default.
W2891008229 cites W2236164259 @default.
W2891008229 cites W2236964933 @default.
W2891008229 cites W2267404598 @default.
W2891008229 cites W2277482974 @default.
W2891008229 cites W2300158998 @default.
W2891008229 cites W2315776822 @default.
W2891008229 cites W2321468358 @default.
W2891008229 cites W2408642289 @default.
W2891008229 cites W2411103551 @default.
W2891008229 cites W2418747447 @default.
W2891008229 cites W2467444326 @default.
W2891008229 cites W2519718304 @default.
W2891008229 cites W2591946104 @default.
W2891008229 cites W2594655799 @default.
W2891008229 cites W2608179893 @default.
W2891008229 cites W2618980223 @default.
W2891008229 cites W2619277461 @default.
W2891008229 cites W2735775893 @default.
W2891008229 cites W2740367986 @default.
W2891008229 cites W2740459967 @default.
W2891008229 cites W2774126181 @default.
W2891008229 cites W2799798847 @default.
W2891008229 cites W2804967855 @default.
W2891008229 cites W2951835594 @default.
W2891008229 cites W770838111 @default.
W2891008229 doi "https://doi.org/10.1016/j.cej.2018.09.063" @default.
W2891008229 hasPublicationYear "2019" @default.