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W3148731594 endingPage "5979" @default.
W3148731594 startingPage "5969" @default.
W3148731594 abstract "Spin states of iron often direct the selectivity in oxidation catalysis by iron complexes using hydrogen peroxide (H2O2) on an oxidant. While low-spin iron(III) hydroperoxides display stereoselective C-H bond hydroxylation, the reactions are nonstereoselective with high-spin iron(II) catalysts. The catalytic studies with a series of high-spin iron(II) complexes of N4 ligands with H2O2 and Sc3+ reported here reveal that the Lewis acid promotes catalytic C-H bond hydroxylation with high chemo- and stereoselectivity. This reactivity pattern is observed with iron(II) complexes containing two cis-labile sites. The enhanced selectivity for C-H bond hydroxylation catalyzed by the high-spin iron(II) complexes in the presence of Sc3+ parallels that of the low-spin iron catalysts. Furthermore, the introduction of multimetal centers enhances the activity and selectivity of the iron catalyst. The study provides insights into the development of peroxide-dependent bioinspired catalysts for the selective oxygenation of C-H bonds without the restriction of using iron complexes of strong-field ligands." @default.
W3148731594 created "2021-04-13" @default.
W3148731594 creator A5037909745 @default.
W3148731594 creator A5063525254 @default.
W3148731594 creator A5079628284 @default.
W3148731594 date "2021-03-30" @default.
W3148731594 modified "2023-09-27" @default.
W3148731594 title "Enhancing Chemo- and Stereoselectivity in C–H Bond Oxygenation with H<sub>2</sub>O<sub>2</sub> by Nonheme High-Spin Iron Catalysts: The Role of Lewis Acid and Multimetal Centers" @default.
W3148731594 cites W1124620890 @default.
W3148731594 cites W1965119585 @default.
W3148731594 cites W1967700647 @default.
W3148731594 cites W1981763423 @default.
W3148731594 cites W1990816037 @default.
W3148731594 cites W1994103683 @default.
W3148731594 cites W2000601135 @default.
W3148731594 cites W2001299931 @default.
W3148731594 cites W2001557961 @default.
W3148731594 cites W2011715467 @default.
W3148731594 cites W2014584660 @default.
W3148731594 cites W2025809886 @default.
W3148731594 cites W2026294244 @default.
W3148731594 cites W2038700747 @default.
W3148731594 cites W2043493233 @default.
W3148731594 cites W2046414723 @default.
W3148731594 cites W2047601015 @default.
W3148731594 cites W2051406214 @default.
W3148731594 cites W2051760129 @default.
W3148731594 cites W2056866121 @default.
W3148731594 cites W2058206851 @default.
W3148731594 cites W2061017523 @default.
W3148731594 cites W2062482634 @default.
W3148731594 cites W2069280517 @default.
W3148731594 cites W2076655264 @default.
W3148731594 cites W2078567919 @default.
W3148731594 cites W2085831526 @default.
W3148731594 cites W2087002860 @default.
W3148731594 cites W2087011263 @default.
W3148731594 cites W2088954596 @default.
W3148731594 cites W2094204173 @default.
W3148731594 cites W2099037802 @default.
W3148731594 cites W2099693699 @default.
W3148731594 cites W2106487454 @default.
W3148731594 cites W2106897953 @default.
W3148731594 cites W2109643431 @default.
W3148731594 cites W2114780368 @default.
W3148731594 cites W2116176573 @default.
W3148731594 cites W2118184777 @default.
W3148731594 cites W2131027449 @default.
W3148731594 cites W2138012263 @default.
W3148731594 cites W2143120654 @default.
W3148731594 cites W2149370026 @default.
W3148731594 cites W2150993288 @default.
W3148731594 cites W2159063344 @default.
W3148731594 cites W2160951862 @default.
W3148731594 cites W2226953743 @default.
W3148731594 cites W2313035794 @default.
W3148731594 cites W2314505024 @default.
W3148731594 cites W2327031347 @default.
W3148731594 cites W2327723489 @default.
W3148731594 cites W2329313380 @default.
W3148731594 cites W2501113729 @default.
W3148731594 cites W2553542441 @default.
W3148731594 cites W2560065440 @default.
W3148731594 cites W2582452355 @default.
W3148731594 cites W2734764430 @default.
W3148731594 cites W2738616930 @default.
W3148731594 cites W2741168293 @default.
W3148731594 cites W2763070859 @default.
W3148731594 cites W2769974254 @default.
W3148731594 cites W2770676058 @default.
W3148731594 cites W2787805923 @default.
W3148731594 cites W2795631484 @default.
W3148731594 cites W2883097793 @default.
W3148731594 cites W2884131380 @default.
W3148731594 cites W2891809159 @default.
W3148731594 cites W2901830636 @default.
W3148731594 cites W2912135013 @default.
W3148731594 cites W2915170071 @default.
W3148731594 cites W2938051579 @default.
W3148731594 cites W2953449239 @default.
W3148731594 cites W2955054229 @default.
W3148731594 cites W2966159167 @default.
W3148731594 cites W2970806010 @default.
W3148731594 cites W2972744779 @default.
W3148731594 cites W2980588868 @default.
W3148731594 cites W2983930888 @default.
W3148731594 doi "https://doi.org/10.1021/acs.inorgchem.1c00397" @default.
W3148731594 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33784082" @default.
W3148731594 hasPublicationYear "2021" @default.
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