Herein, we submitted to the original synthesis, characterization, energy transfer mechanism of the Bodipy-bearing pillar[5]arene Bodipy and its reactants by employing of infrared, ¹H, ¹¹B, ¹³C, ¹⁹F-NMRs, UV–vis, fluorescence spectroscopy, melting point apparatus, CHN elemental analysis and mass spectroscopy. Preliminary UV–vis, fluorescence and excitation measurements were carried out in CH₂Cl₂ and the results revealed an effective fluorescence resonance energy transfer (FRET) system based on the interaction of pillar[5]arene and Bodipy derivative. ε_max of target molecule reached to a maximum value and it was found as 955 000 M⁻¹ cm⁻¹. This fluorescent macromolecule worked well for mimicking a light harvesting system with an energy transfer efficiency up to 92%.

在这里，我们通过红外，¹ H，¹¹ B，¹³ C，¹⁹ F-NMR，UV-vis对具有Bodipy的支柱[5]芳烃Bodipy及其反应物的原始合成，表征，能量转移机理进行了研究。，荧光光谱，熔点仪，CHN元素分析和质谱。在CH ₂ Cl ₂中进行了初步的紫外可见，荧光和激发测量，结果显示了基于柱[5]芳烃与Bodipy衍生物相互作用的有效荧光共振能量转移（FRET）系统。ε_最大靶分子达到最大值，并且发现作为955 000米^-1 厘米^-1。这种荧光大分子可以很好地模拟能量收集效率高达92％的光收集系统。