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- 검색키워드
- 저자 : Groy, Thomas L. (검색결과 2 건)
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Mukhopadhyay, Tufan K.,Rock, Christopher L.,Hong, Mannkyu,Ashley, Daniel C.,Groy, Thomas L.,Baik, Mu-Hyun,Trovitch, Ryan J. American Chemical Society 2017 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY - Vol.139 No.13
<P>We recently reported a bis(imino)pyridine (or pyridine diimine, PDI) manganese precatalyst, (<SUP>Ph2PPr</SUP>PDI)Mn (<B>1</B>), that is active for the hydrosilylation of ketones and dihydrosilylation of esters. In this contribution, we reveal an expanded scope for <B>1</B>-mediated hydrosilylation and propose two different mechanisms through which catalysis is achieved. Aldehyde hydrosilylation turnover frequencies (TOFs) of up to 4900 min<SUP>-1</SUP> have been realized, the highest reported for first row metal-catalyzed carbonyl hydrosilylation. Additionally, <B>1</B> has been shown to mediate formate dihydrosilylation with leading TOFs of up to 330 min<SUP>-1</SUP>. Under stoichiometric and catalytic conditions, addition of PhSiH<SUB>3</SUB> to (<SUP>Ph2PPr</SUP>PDI)Mn was found to result in partial conversion to a new diamagnetic hydride compound. Independent preparation of (<SUP>Ph2PPr</SUP>PDI)MnH (<B>2</B>) was achieved upon adding NaEt<SUB>3</SUB>BH to (<SUP>Ph2PPr</SUP>PDI)MnCl<SUB>2</SUB> and single-crystal X-ray diffraction analysis revealed this complex to possess a capped trigonal bipyramidal solid-state geometry. When 2,2,2-trifluoroacetophenone was added to <B>1</B>, radical transfer yielded (<SUP>Ph2PPr</SUP>PDI<B>·</B>)Mn(OC<B>·</B>(Ph)(CF<SUB>3</SUB>)) (<B>3</B>), which undergoes intermolecular C-C bond formation to produce the respective Mn(II) dimer, [(μ-<I>O</I>,<I>N</I><SUB>py</SUB>-4-OC(CF<SUB>3</SUB>)(Ph)-4-H-<SUP>Ph2PPr</SUP>PDI)Mn]<SUB>2</SUB> (<B>4</B>). Upon finding <B>3</B> to be inefficient and <B>4</B> to be inactive, kinetic trials were conducted to elucidate the mechanisms of <B>1</B>- and <B>2</B>-mediated hydrosilylation. Varying the concentration of <B>1</B>, substrate, and PhSiH<SUB>3</SUB> revealed a first order dependence on each reagent. Furthermore, a kinetic isotope effect (KIE) of 2.2 ± 0.1 was observed for <B>1</B>-catalyzed hydrosilylation of diisopropyl ketone, while a KIE of 4.2 ± 0.6 was determined using <B>2</B>, suggesting <B>1</B> and <B>2</B> operate through different mechanisms. Although kinetic trials reveal <B>1</B> to be the more active precatalyst for carbonyl hydrosilylation, a concurrent <B>2</B>-mediated pathway is more efficient for carboxylate hydrosilylation. Considering these observations, <B>1</B>-catalyzed hydrosilylation is believed to proceed through a modified Ojima mechanism, while <B>2-</B>mediated hydrosilylation occurs via insertion.</P> [FIG OMISSION]</BR>
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Ghosh, Chandrani,Kim, Suyeon,Mena, Matthew R.,Kim, Jun-Hyeong,Pal, Raja,Rock, Christopher L.,Groy, Thomas L.,Baik, Mu-Hyun,Trovitch, Ryan J. American Chemical Society 2019 JOURNAL OF THE AMERICAN CHEMICAL SOCIETY - Vol.141 No.38
<P><I>N</I>,<I>N</I>-Diborylamines have emerged as promising reagents in organic synthesis; however, their efficient preparation and full synthetic utility have yet to be realized. To address both shortcomings, an effective catalyst for nitrile dihydroboration was sought. Heating CoCl<SUB>2</SUB> in the presence of <SUP>PyEt</SUP>PDI afforded the six-coordinate Co(II) salt, [(<SUP>PyEt</SUP>PDI)CoCl][Cl]. Upon adding 2 equiv of NaEt<SUB>3</SUB>BH, hydride transfer to one chelate imine functionality was observed, resulting in the formation of (κ<SUP>4</SUP>-<I>N,N,N,N</I>-<SUP>PyEt</SUP>IP<SUP>CHMe</SUP>N<SUP>EtPy</SUP>)Co. Single-crystal X-ray diffraction and density functional theory calculations revealed that this compound possesses a low-spin Co(II) ground state featuring antiferromagnetic coupling to a singly reduced imino(pyridine) moiety. Importantly, (κ<SUP>4</SUP>-<I>N,N,N,N</I>-<SUP>PyEt</SUP>IP<SUP>CHMe</SUP>N<SUP>EtPy</SUP>)Co was found to catalyze the dihydroboration of nitriles using HBPin with turnover frequencies of up to 380 h<SUP>-1</SUP> at ambient temperature. Stoichiometric addition experiments revealed that HBPin adds across the Co-N<SUB>amide</SUB> bond to generate a hydride intermediate that can react with additional HBPin or nitriles. Computational evaluation of the reaction coordinate revealed that the B-H addition and nitrile insertion steps occur on the antiferromagnetically coupled triplet spin manifold. Interestingly, formation of the borylimine intermediate was found to occur following BPin transfer from the borylated chelate arm to regenerate (κ<SUP>4</SUP>-<I>N,N,N,N</I>-<SUP>PyEt</SUP>IP<SUP>CHMe</SUP>N<SUP>EtPy</SUP>)Co. Borylimine reduction is in turn facile and follows the same ligand-assisted borylation pathway. The independent hydroboration of alkyl and aryl imines was also demonstrated at 25 °C. With a series of <I>N</I>,<I>N</I>-diborylamines in hand, their addition to carboxylic acids allowed for the direct synthesis of amides at 120 °C, without the need for an exogenous coupling reagent.</P> [FIG OMISSION]</BR>
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