Gros Claude P, Brisach Frédéric, Meristoudi Anastasia, Espinosa Enrique, Guilard Roger, Harvey Pierre D
LIMSAG, Université de Bourgogne, 9 Avenue Alain Savary, BP 47870, 21078 Dijon Cedex France.
Inorg Chem. 2007 Jan 8;46(1):125-35. doi: 10.1021/ic0613558.
A new series of relatively flexible cofacial donor-acceptor dyads for singlet-singlet energy transfer with the corrole or etio-porphyrin free base and zinc porphyrin as the acceptor and donor, respectively, were synthesized and characterized (represented as (PMes2COx)ZnH3 (13), (PMes2CO)ZnH3 (14), and (PMes2CX)ZnH3 (15)) where (PMes2COx = [2-[5-(5,15-dimesitylcorrol-10-yl)-diphenylether-2'-yl]-13,17-diethyl-2,3,7,8,12,18-hexamethylporphyrin]), (PMes2CO = [5-[5-(5,15-dimesitylcorrol-10-yl)-dibenzofuran-4-yl]-13,17-diethyl-2,3,7,8,12,18-hexamethylporphyrin]), and (PMes2CX = [5-[5-(5,15-dimesitylcorrol-10-yl)-9,9-dimethylxanthen-4-yl)]-13,17-diethyl-2,3,7,8,12,18-hexamethylporphyrin]), respectively) along with the homobismacrocycles (DPOx)ZnH2 (17) and (DPOx)Zn2 (18) (where (DPOx = 2,2'-bis[5-(2,8,13,17-tetraethyl-3,7,12,18-tetramethylporphyrinyl)]diphenylether) as comparison standards. The rate for energy transfer (kET) extracted by the measurements of fluorescence lifetimes are of the same order of magnitude as those recently reported for the rigidly held face-to-face dyads ((DPB)ZnH2 (1), (DPX)ZnH2 (2), (DPA)ZnH2 (3), (DPO)ZnH2 (4), and (DPS)ZnH2 (5) where (DPB = 1,8-bis[5-(2,8,13,17-tetraethyl-3,7,12,18-tetramethylporphyrinyl)]biphenylene), (DPX = 4,5-bis[5-(2,8,13,17-tetraethyl-3,7,12,18-tetramethylporphyrinyl)]-9,9-dimethylxanthene), (DPA = 1,8-bis[5-(2,8,13,17-tetraethyl-3,7,12,18-tetramethylporphyrinyl)]anthracene), (DPO = 4,6-bis[5-(2,8,13,17-tetraethyl-3,7,12,18-tetramethylporphyrinyl)]dibenzofuran), and (DPS = 4,6-bis[5-(2,8,13,17-tetraethyl-3,7,12,18-tetramethylporphyrinyl)]dibenzothiophene), respectively), but for the first time, it is shown that the presence of a bulky group located between the acceptor and the donor moiety influences the transfer rate. The presence of perpendicular mesityl groups on the acceptor macrocycle prevents the two macrorings from interacting strongly; therefore, kET is slower. On the other hand, by rendering the rigid spacer flexible (i.e., changing the dibenzofuran rigid spacer to the flexible diphenylether assembling fragment), kET increases due to stronger intermacrocycle interactions. This study is complemented by DFT computations (B3LYP/3-21G*) as a molecular modeling tool where subtle structural features explain the changes in kET. During the course of this study, X-ray structures of 17 and 18 were investigated and exhibit a linear stacking of the bismacrocycles where intermolecular porphyrin-porphyrin interactions are observed (dinter(Zn...Zn) = 4.66 and 4.57 A, for 17 and 18, respectively).
合成并表征了一系列新型的相对灵活的共面供体 - 受体二元体系,用于单重态 - 单重态能量转移,其中分别以卟吩或初卟啉游离碱和锌卟啉作为受体和供体(表示为(PMes2COx)ZnH3 (13)、(PMes2CO)ZnH3 (14)和(PMes2CX)ZnH3 (15)),其中(PMes2COx = [2 - [5 - (5,15 - 二甲基卟啉 - 10 - 基) - 二苯醚 - 2'- 基] - 13,17 - 二乙基 - 2,3,7,8,12,18 - 六甲基卟啉])、(PMes2CO = [5 - [5 - (5,15 - 二甲基卟啉 - 10 - 基) - 二苯并呋喃 - 4 - 基] - 13,17 - 二乙基 - 2,3,7,8,12,18 - 六甲基卟啉])和(PMes2CX = [5 - [5 - (5,15 - 二甲基卟啉 - 10 - 基) - 9,9 - 二甲基氧杂蒽 - 4 - 基)] - 13,17 - 二乙基 - 2,3,7,8,12,18 - 六甲基卟啉]),以及同双核大环化合物(DPOx)ZnH2 (17)和(DPOx)Zn2 (18)(其中(DPOx = 2,2'- 双[5 - (2,8,13,17 - 四乙基 - 3,7,12,18 - 四甲基卟啉基)]二苯醚)作为比较标准。通过荧光寿命测量提取的能量转移速率(kET)与最近报道的刚性面对面二元体系((DPB)ZnH2 (1)、(DPX)ZnH2 (2)、(DPA)ZnH2 (3)、(DPO)ZnH2 (4)和(DPS)ZnH2 (5),其中(DPB = 1,8 - 双[5 - (2,8,13,17 - 四乙基 - 3,7,12,18 - 四甲基卟啉基)]联苯撑)、(DPX = 4,5 - 双[5 - (2,8,13,17 - 四乙基 - 3,7,12,
