Department of Chemistry, Yonsei University , 50 Yonsei-ro, Seodaemoon-Gu, Seoul 120-749, Korea.
J Am Chem Soc. 2014 Jan 29;136(4):1672-9. doi: 10.1021/ja4124048. Epub 2014 Jan 14.
A bisindole-bridged-porphyrin tweezer (1), a pair of zinc porphyrins (PZn's) connected to bisindole bridge (BB) via the Cu(I)-mediated alkyne-azide click chemistry, exhibited unique switching in forward and backward photoinduced energy transfer by specific guest bindings. The addition of Cu(2+) caused a change in electronic absorption and fluorescence quenching of 1. MALDI-TOF-MS and FT-IR analyses indicated the formation of stable coordination complex between 1 and Cu(2+) (1-Cu(II)). Without Cu(2+) coordination, the excitation energy flows from BB to PZn's with significantly high energy transfer efficiency. In contrast, the direction of energy flow in 1 was completely reversed by the coordination of Cu(2+). The difference in fluorescence quantum yield between 1 and 1-Cu(II) indicates that more than 95% of excitation energy of PZn flows into Cu(II)-coordinated BB. The energy transfer efficiency was further controlled by bidentate ligand coordination onto 1-Cu(II). When pyrophosphate ion was added to 1-Cu(II), the recovery of fluorescence emission from PZn was observed. The quantum mechanical calculations indicated that the Cu(II)-coordinated BB has square planar geometry, which can be distorted to form octahedral geometry due to the coordination of bidentate ligands.
一种双吲哚桥联卟啉二聚体(1),一对锌卟啉(PZn)通过 Cu(I)介导的炔基-叠氮点击化学连接到双吲哚桥(BB)上,通过特定客体结合表现出独特的正向和反向光诱导能量转移开关。Cu(2+)的加入导致 1 的电子吸收和荧光猝灭发生变化。MALDI-TOF-MS 和 FT-IR 分析表明,1 与 Cu(2+)(1-Cu(II))之间形成了稳定的配位络合物。没有 Cu(2+)配位时,激发能量从 BB 流向 PZn,能量转移效率非常高。相比之下,Cu(2+)的配位完全改变了 1 的能量流方向。1 和 1-Cu(II)之间荧光量子产率的差异表明,PZn 的超过 95%的激发能量流入 Cu(II)配位的 BB。通过二齿配体与 1-Cu(II)配位进一步控制了能量转移效率。当焦磷酸根离子加入到 1-Cu(II)中时,观察到 PZn 的荧光发射恢复。量子力学计算表明,Cu(II)配位的 BB 具有平面正方形几何形状,由于二齿配体的配位,其可以扭曲形成八面体几何形状。
