SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4221053967> ?p ?o ?g. }

Showing items 1 to 100 of ±163 with 100 items per page.

W4221053967 endingPage "3275" @default.
W4221053967 startingPage "3265" @default.
W4221053967 abstract "Environmentally persistent free radicals (EPFRs) have been recognized as one of the important emerging contaminants with biological toxicity, environmental persistence, and global mobility. Previous studies have identified the catalytic role of surface metal oxides in EPFRs formation and illustrated the metal-dependence of EPFRs by studying on various metal oxide nanoparticles and single crystals. However, there is still lack of an understanding on the formation of EPFRs from the point of view of metal sites. Various factors (e.g., crystalline phases and surface species) of metal oxides are regarded to contribute to the generation of EPFRs, which present profound difficulties for scientists to tease apart the impact of metal type. Herein, a laboratory investigation, in terms of the acidity and oxidation strength of metal cations, was conducted by selecting metal-variable isostructural metal-organic frameworks as material platforms. Specifically, we evaluated EPFRs generation on MIL-100(M) (M = Al, Cr, Fe) from chlorine-substituted phenol vapor and catechol under thermal conditions. It is found that high Lewis acidity of metal sites is crucial for capturing the above two phenolic precursors, activating the O-H bond and promoting EPFRs formation. Radical species with half-life as long as 70 days were generated on MIL-100 rich in 5-fold coordinated Al3+ sites. The unpaired electron spin density donation was further confirmed by using 27Al solid-state nuclear magnetic resonance spectroscopy. Despite their higher oxidation power than Al3+, the exposed Cr3+ and Fe3+ sites show undetectable catalytic activity for the formation of EPFRs, because of their insufficient Lewis acidity. Our results suggest that the surface species rather than Lewis acid sites may be a major contributor to the formation of EPFRs on metal oxides like Fe2O3." @default.
W4221053967 created "2022-04-03" @default.
W4221053967 creator A5002439817 @default.
W4221053967 creator A5015980633 @default.
W4221053967 creator A5021679236 @default.
W4221053967 creator A5024893590 @default.
W4221053967 creator A5028224364 @default.
W4221053967 creator A5039032609 @default.
W4221053967 creator A5070256620 @default.
W4221053967 creator A5075877965 @default.
W4221053967 creator A5077511755 @default.
W4221053967 date "2022-03-04" @default.
W4221053967 modified "2023-10-15" @default.
W4221053967 title "Generation of Environmentally Persistent Free Radicals on Metal–Organic Frameworks" @default.
W4221053967 cites W1139690781 @default.
W4221053967 cites W1969165734 @default.
W4221053967 cites W1970406198 @default.
W4221053967 cites W1978912403 @default.
W4221053967 cites W1985133660 @default.
W4221053967 cites W1988543938 @default.
W4221053967 cites W1990310429 @default.
W4221053967 cites W1993226975 @default.
W4221053967 cites W1995346641 @default.
W4221053967 cites W1999717844 @default.
W4221053967 cites W1999908724 @default.
W4221053967 cites W2003437825 @default.
W4221053967 cites W2004550299 @default.
W4221053967 cites W2006953965 @default.
W4221053967 cites W2008055071 @default.
W4221053967 cites W2016105690 @default.
W4221053967 cites W2026500645 @default.
W4221053967 cites W2027788760 @default.
W4221053967 cites W2028989502 @default.
W4221053967 cites W2030918057 @default.
W4221053967 cites W2031933809 @default.
W4221053967 cites W2032989692 @default.
W4221053967 cites W2046601434 @default.
W4221053967 cites W2062058974 @default.
W4221053967 cites W2062269633 @default.
W4221053967 cites W2074129088 @default.
W4221053967 cites W2074771263 @default.
W4221053967 cites W2082179062 @default.
W4221053967 cites W2085208746 @default.
W4221053967 cites W2090264019 @default.
W4221053967 cites W2092370470 @default.
W4221053967 cites W2112307556 @default.
W4221053967 cites W2130360607 @default.
W4221053967 cites W2140356073 @default.
W4221053967 cites W2141939342 @default.
W4221053967 cites W2144392663 @default.
W4221053967 cites W2144605817 @default.
W4221053967 cites W2188642969 @default.
W4221053967 cites W2315405796 @default.
W4221053967 cites W2318044185 @default.
W4221053967 cites W2326576067 @default.
W4221053967 cites W2327768373 @default.
W4221053967 cites W2331254147 @default.
W4221053967 cites W2333830965 @default.
W4221053967 cites W2334883700 @default.
W4221053967 cites W2509656215 @default.
W4221053967 cites W2528882088 @default.
W4221053967 cites W2597813752 @default.
W4221053967 cites W2604803847 @default.
W4221053967 cites W2612802048 @default.
W4221053967 cites W2625862385 @default.
W4221053967 cites W2763835287 @default.
W4221053967 cites W2787207882 @default.
W4221053967 cites W2788535713 @default.
W4221053967 cites W2790308498 @default.
W4221053967 cites W2800912989 @default.
W4221053967 cites W2801698639 @default.
W4221053967 cites W2804843709 @default.
W4221053967 cites W2808924100 @default.
W4221053967 cites W2886952959 @default.
W4221053967 cites W2912407602 @default.
W4221053967 cites W2917129004 @default.
W4221053967 cites W2947400742 @default.
W4221053967 cites W2950841222 @default.
W4221053967 cites W2982307608 @default.
W4221053967 cites W2993587445 @default.
W4221053967 cites W3003845413 @default.
W4221053967 cites W3008272235 @default.
W4221053967 cites W3014480782 @default.
W4221053967 cites W3106415266 @default.
W4221053967 cites W3108002222 @default.
W4221053967 cites W3113271000 @default.
W4221053967 cites W3128737614 @default.
W4221053967 cites W3130678926 @default.
W4221053967 cites W3157523472 @default.
W4221053967 cites W3161114865 @default.
W4221053967 cites W3182938285 @default.
W4221053967 cites W3205353596 @default.
W4221053967 cites W3212756312 @default.
W4221053967 cites W4247433847 @default.
W4221053967 doi "https://doi.org/10.1021/acs.langmuir.1c03491" @default.
W4221053967 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/35245423" @default.
W4221053967 hasPublicationYear "2022" @default.
W4221053967 type Work @default.