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Journal Abstract Search

1046 related items for PubMed ID: 19562169

  • 1. Chemoselective and biomimetic hydroxylation of hydrocarbons by non-heme micro-oxo-bridged diiron(III) catalysts using m-CPBA as oxidant.
    Mayilmurugan R, Stoeckli-Evans H, Suresh E, Palaniandavar M.
    Dalton Trans; 2009 Jul 14; (26):5101-14. PubMed ID: 19562169
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  • 2. Novel square pyramidal iron(III) complexes of linear tetradentate bis(phenolate) ligands as structural and reactive models for intradiol-cleaving 3,4-PCD enzymes: Quinone formation vs. intradiol cleavage.
    Mayilmurugan R, Sankaralingam M, Suresh E, Palaniandavar M.
    Dalton Trans; 2010 Oct 28; 39(40):9611-25. PubMed ID: 20835480
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  • 4. Highly selective hydroxylation of alkanes catalyzed by (micro-oxo)bis(micro-carboxylato)-bridged diiron(III) complexes: involvement of mononuclear iron(III) species in catalysis.
    Visvaganesan K, Suresh E, Palaniandavar M.
    Dalton Trans; 2009 May 21; (19):3814-23. PubMed ID: 19417948
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  • 5. Novel iron(III) complexes of sterically hindered 4N ligands: regioselectivity in biomimetic extradiol cleavage of catechols.
    Mayilmurugan R, Stoeckli-Evans H, Palaniandavar M.
    Inorg Chem; 2008 Aug 04; 47(15):6645-58. PubMed ID: 18597419
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  • 6. A new tripodal iron(III) monophenolate complex: effects of ligand basicity, steric hindrance, and solvent on regioselective extradiol cleavage.
    Mayilmurugan R, Suresh E, Palaniandavar M.
    Inorg Chem; 2007 Jul 23; 46(15):6038-49. PubMed ID: 17589990
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  • 10. Biomimetic aryl hydroxylation derived from alkyl hydroperoxide at a nonheme iron center. Evidence for an Fe(IV)=O oxidant.
    Jensen MP, Lange SJ, Mehn MP, Que EL, Que L.
    J Am Chem Soc; 2003 Feb 26; 125(8):2113-28. PubMed ID: 12590539
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  • 12. Non-heme μ-Oxo- and bis(μ-carboxylato)-bridged diiron(iii) complexes of a 3N ligand as catalysts for alkane hydroxylation: stereoelectronic factors of carboxylate bridges determine the catalytic efficiency.
    Balamurugan M, Suresh E, Palaniandavar M.
    Dalton Trans; 2016 Jul 28; 45(28):11422-36. PubMed ID: 27336757
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  • 13. Iron(III) complexes of tridentate 3N ligands as functional models for catechol dioxygenases: the role of ligand N-alkyl substitution and solvent on reaction rate and product selectivity.
    Visvaganesan K, Mayilmurugan R, Suresh E, Palaniandavar M.
    Inorg Chem; 2007 Nov 26; 46(24):10294-306. PubMed ID: 17958355
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  • 14. Nickel(II) complexes of pentadentate N5 ligands as catalysts for alkane hydroxylation by using m-CPBA as oxidant: a combined experimental and computational study.
    Sankaralingam M, Balamurugan M, Palaniandavar M, Vadivelu P, Suresh CH.
    Chemistry; 2014 Sep 01; 20(36):11346-61. PubMed ID: 25100547
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  • 17. Molecular and electronic structures of dinuclear iron complexes incorporating strongly electron-donating ligands: implications for the generation of the one- and two-electron oxidized forms.
    Strautmann JB, Freiherr von Richthofen CG, Heinze-Brückner G, DeBeer S, Bothe E, Bill E, Weyhermüller T, Stammler A, Bögge H, Glaser T.
    Inorg Chem; 2011 Jan 03; 50(1):155-71. PubMed ID: 21114259
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  • 20. A structural and Mössbauer study of complexes with Fe(2)(micro-O(H))(2) cores: stepwise oxidation from Fe(II)(micro-OH)(2)Fe(II) through Fe(II)(micro-OH)(2)Fe(III) to Fe(III)(micro-O)(micro-OH)Fe(III).
    Stubna A, Jo DH, Costas M, Brenessel WW, Andres H, Bominaar EL, Münck E, Que L.
    Inorg Chem; 2004 May 17; 43(10):3067-79. PubMed ID: 15132612
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