由多胺配体支撑的双核铜-双氧中间体。

Dinuclear copper-dioxygen intermediates supported by polyamine ligands.

作者信息

Teramae Shinichi, Osako Takao, Nagatomo Shigenori, Kitagawa Teizo, Fukuzumi Shunichi, Itoh Shinobu

机构信息

Department of Material and Life Science, Graduate School of Engineering, Osaka University, CREST, Japan Science and Technology Corporation, 2-1 Yamada-oka, Suita, Osaka 565-0871, Japan.

出版信息

J Inorg Biochem. 2004 May;98(5):746-57. doi: 10.1016/j.jinorgbio.2003.11.009.

DOI:10.1016/j.jinorgbio.2003.11.009

PMID:15134920

Abstract

Reactivity of the dicopper(I) and dicopper(II) complexes supported by novel polyamine ligands L1 (1,11-bis(6-methylpyridin-2-yl)-2,6,10-triaza-2,6,10-tribenzylundecane) and L2 (5-benzyl-1,9-bis(6-methylpyridin-2-yl)-2,8-bis(6-methylpyridin-2-ylmethyl)-2,5,8-triazanonane) towards O(2) and H(2)O(2), respectively, has been investigated in order to shed light on the ligand effects on Cu(2)/O(2) chemistry. The dicopper(I) complex of L1 (1a) readily reacted with O(2) in a 2:1 ratio at a low temperature (-94 degrees C) in acetone to afford a mixture of (mu-eta2.eta2-peroxo)dicopper(II) and bis(mu-oxo)dicopper(III) complexes. The formation of these species has been confirmed by the electron spin resonance (ESR) silence of the solution as well as their characteristic absorption bands in the UV-visible region (gammamax= 350 and 510 nm due to the peroxo complex and approximately 400 nm due to the bis(mu-oxo) complex] and the resonance Raman bands at 729 cm(-1) [Deltanu (16(O2)-18(O2)) = 38 cm(-1)] due to the peroxo complex and at 611 and 571 cm(-1) [Deltanu(16(O2)-18(O2)) = 22 and 7 cm(-1), respectively] due to the bis(mu-oxo) complex. The peroxo and bis(mu-oxo) complexes were unstable even at the low temperature, leading to oxidative N-dealkylation at the ligand framework. The dicopper(I) complex of L2 (2a) also reacted with O(2) to give (mu-hydroxo)dicopper(II) complex (2b(OH)) as the product. In this case, however, no active oxygen intermediate was detected even at the low temperature (-94 degrees C). With respect to the copper(II) complexes, treatment of the (mu-hydroxo)dicopper(II) complex of L1 (1b(OH)) with an equimolar amount of H(2)O(2) in acetone at -80 degrees C efficiently gave a (mu-1,1-hydroperoxo)dicopper(II) complex, the formation of which has been supported by its ESR-silence as well as UV-vis (370 and 650 nm) and resonance Raman spectra [881 cm(-1); [Deltanu (16(O2)-18(O2)) = 49 cm(-1)]. The (mu-1,1-hydroperoxo)dicopper(II) intermediate of L1 also decomposed slowly at the low temperature to give similar oxidative N-dealkylation products. Kinetic studies on the oxidative N-dealkylation reactions have been performed to provide insight into the reactivity of the active oxygen intermediates.

摘要

为了阐明配体对铜（II）/氧气化学性质的影响，研究了由新型多胺配体L1（1,11 - 双（6 - 甲基吡啶 - 2 - 基） - 2,6,10 - 三氮杂 - 2,6,10 - 三苄基十一烷）和L2（5 - 苄基 - 1,9 - 双（6 - 甲基吡啶 - 2 - 基） - 2,8 - 双（6 - 甲基吡啶 - 2 - 基甲基） - 2,5,8 - 三氮杂壬烷）支撑的二价铜（I）和二价铜（II）配合物分别与氧气和过氧化氢的反应活性。L1的二价铜（I）配合物（1a）在低温（-94℃）下于丙酮中以2:1的比例与氧气迅速反应，生成（μ - η².η² - 过氧）二价铜（II）和双（μ - 氧）二价铜（III）配合物的混合物。这些物种的形成已通过溶液的电子自旋共振（ESR）信号消失以及它们在紫外 - 可见区域的特征吸收带得到证实（过氧配合物的γmax = 350和510nm，双（μ - 氧）配合物约为400nm），以及过氧配合物在729cm⁻¹处的共振拉曼带[Δν（¹⁶O₂ - ¹⁸O₂） = 38cm⁻¹]和双（μ - 氧）配合物在611和571cm⁻¹处的共振拉曼带[Δν（¹⁶O₂ - ¹⁸O₂）分别为22和7cm⁻¹]。过氧和双（μ - 氧）配合物即使在低温下也不稳定，导致配体骨架上发生氧化N - 脱烷基反应。L2的二价铜（I）配合物（2a）也与氧气反应，生成（μ - 羟基）二价铜（II）配合物（2b(OH)）作为产物。然而，在这种情况下，即使在低温（-94℃）下也未检测到活性氧中间体。关于铜（II）配合物，在-80℃下于丙酮中用等摩尔量的过氧化氢处理L1的（μ - 羟基）二价铜（II）配合物（1b(OH)），有效地得到了（μ - 1,1 - 氢过氧）二价铜（II）配合物，其形成已通过其ESR信号消失以及紫外 - 可见光谱（370和650nm）和共振拉曼光谱[881cm⁻¹；Δν（¹⁶O₂ - ¹⁸O₂） = 49cm⁻¹]得到支持。L1的（μ - 1,1 - 氢过氧）二价铜（II）中间体在低温下也会缓慢分解，生成类似的氧化N - 脱烷基产物。已对氧化N - 脱烷基反应进行了动力学研究，以深入了解活性氧中间体的反应活性。