Department of Chemistry, The Ohio State University, 100 W. 18th Avenue, Columbus, Ohio 43210, USA.
Dalton Trans. 2010 Feb 28;39(8):1979-84. doi: 10.1039/b919282d. Epub 2010 Jan 13.
The reaction between M(2)(TiPB)(4) (M = Mo, W) where TiPB = 2,4,6-triisopropylbenzoate and 6-carboethoxy-2-azulenecarboxylic acid (2 equiv.) in toluene leads to the formation of complexes M(2)(TiPB)(2)(6-carboethoxy-2-azulenecarboxylate)(2). Compound (M = Mo) is blue and compound (M = W) is green. Both are air sensitive, hydrocarbon soluble species that gave the corresponding molecular ions in their mass spectra (MALDI-TOF). They show metal based oxidations and ligand based reductions. Electronic structure calculations (DFT and time dependent DFT) indicate that the two azulene carboxylate pi systems are coupled by their interactions with the M(2)delta orbitals. Their intense colors arise from M(2)delta to azulene pi* electronic transitions. While compound exhibits weak emission at approximately 900 nm, no emission has been detected for . Both and have been studied by fs and ns transient absorption spectroscopy. The X-ray analysis of the molecular structure of in the solid state confirmed the paddlewheel nature of its W(2)(O(2)C)(4) core and the trans orientation of the ligands.
M(2)(TiPB)(4)(M = Mo,W)与 2,4,6-三异丙基苯甲酸盐(TiPB)和 6-羧酸乙酯-2-薁羧酸(2 当量)在甲苯中的反应导致形成配合物 M(2)(TiPB)(2)(6-羧酸乙酯-2-薁羧酸)(2)。化合物(M = Mo)为蓝色,化合物(M = W)为绿色。两者都是对空气敏感、烃类可溶性的物质,在质谱(MALDI-TOF)中给出相应的分子离子。它们表现出基于金属的氧化和基于配体的还原。电子结构计算(DFT 和时间相关 DFT)表明,两个薁羧酸的 pi 体系通过与 M(2)delta 轨道的相互作用耦合。它们强烈的颜色来自于 M(2)delta 到薁 pi*电子跃迁。虽然化合物在大约 900nm 处表现出较弱的发射,但未检测到化合物的发射。和都通过 fs 和 ns 瞬态吸收光谱进行了研究。在固态中对的分子结构的 X 射线分析证实了其 W(2)(O(2)C)(4)核心的桨轮性质和配体的反式取向。
