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<P>To explore the reactivity of copper-alkylperoxo species enabled by the heterolytic peroxide activation, room-temperature stable mononuclear nonheme copper(II)-alkylperoxo complexes bearing a <I>N</I>-(2-ethoxyethanol)-<I>bis...
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RISS 인기검색어
Hydrogen Bond-Enabled Heterolytic and Homolytic Peroxide Activation within Nonheme Copper(II)-Alkylperoxo Complexes
한글로보기https://www.riss.kr/link?id=A107460090
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2019
-
작성언어
-
-
등재정보
SCI,SCIE,SCOPUS
-
자료형태
학술저널
-
수록면
12964-12974(11쪽)
- 제공처
- 소장기관
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
<P>To explore the reactivity of copper-alkylperoxo species enabled by the heterolytic peroxide activation, room-temperature stable mononuclear nonheme copper(II)-alkylperoxo complexes bearing a <I>N</I>-(2-ethoxyethanol)-<I>bis</I>(2-picolyl)amine ligand (HN<SUB>3</SUB>O<SUB>2</SUB>), [Cu<SUP>II</SUP>(OOR)(HN<SUB>3</SUB>O<SUB>2</SUB>)]<SUP>+</SUP> (R = cumyl or <SUP><I>t</I></SUP>Bu), were synthesized and spectroscopically characterized. A combined experimental and computational investigation on the reactivity and reaction mechanisms in the phosphorus oxidation, C-H bond activation, and aldehyde deformylation reactions by the copper(II)-alkylperoxo complexes has been conducted. DFT-optimized structures suggested that a hydrogen bonding interaction exists between the ethoxyethanol backbone of the HN<SUB>3</SUB>O<SUB>2</SUB> ligand and either the proximal or distal oxygen atom of the alkylperoxide moiety, and this interaction consequently results in the enhanced stability of the copper(II)-alkylperoxo species. In the phosphorus oxidation reaction, both experimental and computational results indicated that a phosphine-triggered heterolytic O-O bond cleavage occurred to yield phosphine oxide and alcohol products. DFT calculations suggested that (i) the H-bonding between the ethoxyethanol backbone and distal oxygen of the alkylperoxide moiety and (ii) the phosphine binding to the proximal oxygen of the alkylperoxide moiety engendered the heterolytic peroxide activation. In the C-H bond activation reactions, temperature-dependent reactivity of the copper(II)-alkylperoxo complexes was observed, and a relatively strong activation energy of 95 kcal mol<SUP>-1</SUP> was required to promote the homolytic peroxide activation. A rate-limiting hydrogen atom abstraction reaction of xanthene by the putative copper(II)-oxyl radical resulted in the formation of the dimeric copper product and the substrate radical that further underwent autocatalytic oxidation reactions to form an oxygen incorporated product. Finally, amphoteric reactivity of copper(II)-alkylperoxo complexes has been assessed by conducting kinetic studies and product analysis of the aldehyde deformylation reaction.</P><P>A hydrogen-bonding interaction between the ligand and alkylperoxo ligand within mononuclear nonheme copper(II)−alkylperoxo complexes provides stability and unusual amphoteric reactivity in the phosphorus oxidation and aldehyde deformylation along with C−H bond activation reactions</P>
[FIG OMISSION]</BR>
[FIG OMISSION]</BR>
<P>To explore the reactivity of copper-alkylperoxo species enabled by the heterolytic peroxide activation, room-temperature stable mononuclear nonheme copper(II)-alkylperoxo complexes bearing a <I>N</I>-(2-ethoxyethanol)-<I>bis</I>(2-picolyl)amine ligand (HN<SUB>3</SUB>O<SUB>2</SUB>), [Cu<SUP>II</SUP>(OOR)(HN<SUB>3</SUB>O<SUB>2</SUB>)]<SUP>+</SUP> (R = cumyl or <SUP><I>t</I></SUP>Bu), were synthesized and spectroscopically characterized. A combined experimental and computational investigation on the reactivity and reaction mechanisms in the phosphorus oxidation, C-H bond activation, and aldehyde deformylation reactions by the copper(II)-alkylperoxo complexes has been conducted. DFT-optimized structures suggested that a hydrogen bonding interaction exists between the ethoxyethanol backbone of the HN<SUB>3</SUB>O<SUB>2</SUB> ligand and either the proximal or distal oxygen atom of the alkylperoxide moiety, and this interaction consequently results in the enhanced stability of the copper(II)-alkylperoxo species. In the phosphorus oxidation reaction, both experimental and computational results indicated that a phosphine-triggered heterolytic O-O bond cleavage occurred to yield phosphine oxide and alcohol products. DFT calculations suggested that (i) the H-bonding between the ethoxyethanol backbone and distal oxygen of the alkylperoxide moiety and (ii) the phosphine binding to the proximal oxygen of the alkylperoxide moiety engendered the heterolytic peroxide activation. In the C-H bond activation reactions, temperature-dependent reactivity of the copper(II)-alkylperoxo complexes was observed, and a relatively strong activation energy of 95 kcal mol<SUP>-1</SUP> was required to promote the homolytic peroxide activation. A rate-limiting hydrogen atom abstraction reaction of xanthene by the putative copper(II)-oxyl radical resulted in the formation of the dimeric copper product and the substrate radical that further underwent autocatalytic oxidation reactions to form an oxygen incorporated product. Finally, amphoteric reactivity of copper(II)-alkylperoxo complexes has been assessed by conducting kinetic studies and product analysis of the aldehyde deformylation reaction.</P><P>A hydrogen-bonding interaction between the ligand and alkylperoxo ligand within mononuclear nonheme copper(II)−alkylperoxo complexes provides stability and unusual amphoteric reactivity in the phosphorus oxidation and aldehyde deformylation along with C−H bond activation reactions</P>
[FIG OMISSION]</BR>
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