Chufan Eduardo E, Verani Claudio N, Puiu Simona C, Rentschler Eva, Schatzschneider Ulrich, Incarvito Christopher, Rheingold Arnold L, Karlin Kenneth D
Department of Chemistry, The Johns Hopkins University, Baltimore, Maryland 21218, USA.
Inorg Chem. 2007 Apr 16;46(8):3017-26. doi: 10.1021/ic061686k. Epub 2007 Mar 20.
With the established chemistry of bridged [(porphyrinate)FeIII-X-CuII(ligand)]n+ [X = O2- (oxo), OH- (hydroxo), O22- (peroxo)] complexes, we investigated the effect of cobalt ion substitution for copper or copper and iron. Thus, in this report, the generation and characterization of new mu-oxo, micro-hydroxo, and micro-peroxo (micro-X) assemblies of [(porphyrinate)MIII-X-CoII/III(TMPA)]n+ assemblies is described, where M = FeIII or CoIII and TMPA = tris(2-pyridylmethyl)amine. The mu-oxo complex [(F8TPP)FeIII-O-CoII(TMPA)]+ (1, F8TPP = tetrakis(2,6-difluorphenyl)porphyrinate) was isolated by an acid-base self-assembly reaction of a 1:1 mixture of (F8TPP)FeIII-OH and [CoII(TMPA)(MeCN)]2+ upon addition of triethylamine. The crystal structure of 1.2C4H10O proved the presence of an unsupported Fe-O-Co moiety; angleFe-O-Co = 171.6 degrees and d(Fe...Co) = 3.58 A. Complex 1 was further characterized by UV-vis (lambdamax = 437 (Soret) and 557 nm), 1H NMR [delta 40.6 (pyrrole-H), 8.8 and 8.7 (m-phenyl-H), 8.0 (p-phenyl-H), 4.4 (PY-4H), 2.6 (PY-3H), 1.0 (PY-5H), -1.1 (PY-6H), and -2.7 (TMPA-CH2-) ppm], electrospray ionization (ESI) and matrix-assisted laser desorption ionization time-of-flight (MALDI-TOF) mass spectrometric methods, Evans method NMR (microeff = 3.1), and superconducting quantum interference device (SQUID) susceptometry (J = -114 cm-1, S = 1). The micro-hydroxo analogue [(F8TPP)FeIII-(OH)-CoII(TMPA)]+ (2) [UV-vis lambdamax = 567 nm; delta 78 ppm (pyrrole-H); Evans NMR microeff = 3.7] was generated by addition of 1 equiv of triflic acid to 1. The protonation is completely reversible, and 1 is regenerated from 2 by addition of triethylamine. While (F8TPP)FeII/[CoII(TMPA)(MeCN)]2+/O2 chemistry does not lead to a stable micro-peroxo species, a dicobalt micro-peroxo complex [(TPP)CoIII-(O22-)-CoIII(TMPA)]2+ (3, TPP = meso-tetraphenylporphyrinate) forms from a reaction of O2 with a 1:1 mixture of the CoII precursor components at -80 degrees C [UV-vis lambdamax = 435 (Soret), 548, and 583 (weak) nm; silent EPR spectrum; diamagnetic NMR spectrum]. The oxygenation/deoxygenation equilibrium is reversible; warming solutions of 3 releases approximately 1 equiv of O2 and the reduced complexes are reformed.
基于已确定的桥联[(卟啉)FeIII - X - CuII(配体)]n+[X = O2-(氧代)、OH-(羟基)、O22-(过氧)]配合物的化学性质,我们研究了钴离子取代铜或同时取代铜和铁的效果。因此,在本报告中,描述了[(卟啉)MIII - X - CoII/III(TMPA)]n+配合物新的μ-氧代、μ-羟基和μ-过氧(μ-X)组装体的生成与表征,其中M = FeIII或CoIII且TMPA = 三(2 - 吡啶甲基)胺。μ-氧代配合物[(F8TPP)FeIII - O - CoII(TMPA)]+(1,F8TPP = 四(2,6 - 二氟苯基)卟啉)通过在加入三乙胺时将(F8TPP)FeIII - OH与[CoII(TMPA)(MeCN)]2+以1:1混合物进行酸碱自组装反应分离得到。1·2C4H10O的晶体结构证明存在无支撑的Fe - O - Co部分;∠Fe - O - Co = 171.6°且d(Fe...Co) = 3.58 Å。配合物1通过紫外可见光谱(λmax = 437(索雷特)和557 nm)、1H NMR[δ 40.6(吡咯 - H)、8.8和8.7(间位苯基 - H)、8.0(对位苯基 - H)、4.4(PY - 4H)、2.6(PY - 3H)、1.0(PY - 5H)、 - 1.1(PY - 6H)和 - 2.7(TMPA - CH2 - )ppm]、电喷雾电离(ESI)和基质辅助激光解吸电离飞行时间(MALDI - TOF)质谱方法、埃文斯方法NMR(μeff = 3.1)以及超导量子干涉装置(SQUID)磁学测量(J = - 114 cm - 1,S = 1)进一步表征。μ-羟基类似物[(F8TPP)FeIII - (OH) - CoII(TMPA)]+(2)[紫外可见光谱λmax = 567 nm;δ 78 ppm(吡咯 - H);埃文斯NMR μeff = 3.7]通过向1中加入1当量的三氟甲磺酸生成。质子化是完全可逆的,通过加入三乙胺可从2再生出1。虽然(F8TPP)FeII/[CoII(TMPA)(MeCN)]2+/O2化学过程不会产生稳定的μ-过氧物种,但二钴μ-过氧配合物[(TPP)CoIII - (O22 - ) - CoIII(TMPA)]2+(3,TPP = 中位四苯基卟啉)在 - 80℃下由O2与CoII前体组分的1:1混合物反应形成[紫外可见光谱λmax = 435(索雷特)、548和583(弱)nm;无EPR光谱;抗磁NMR光谱]。氧化/脱氧平衡是可逆的;加热3的溶液会释放约1当量的O2并重新形成还原态配合物。
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