A supramolecular polymeric heterojunction composed of an all-carbon conjugated polymer and fullerenes

Herein, we design and synthesize a novel all-carbon supramolecular polymer host (SPh) containing conjugated macrocycles interconnected by a linear poly(para-phenylene) backbone. Applying the supramolecular host and fullerene C-60 as the guest, we successfully construct a supramolecular polymeric heterojunction (SPhIC60). This carbon structure offers a means to explore the convex-concave pi-pi interactions between SPh and C-60. The produced SPh was characterized by gel permeation chromatography, mass spectrometry, FTIR, Raman spectroscopy, and other spectroscopies. The polymeric segment can be directly viewed using a scanning tunneling microscope. Femtosecond transient absorption and fluorescence up-conversion measurements revealed femtosecond (<< 300 fs) electron transfer from photoexcited SPh to C-60, followed by nanosecond charge recombination to produce the C-60 triplet excited state. The potential applications of SPhIC60 in electron- and hole-transport devices were also investigated, revealing that C-60 incorporation enhances the charge transport properties of SPh. These results expand the scope of the synthesis and application of supramolecular polymeric heterojunctions.

Automated summary

In this study, a novel all-carbon supramolecular polymer host (SPh) was designed and synthesized, leading to the successful construction of a supramolecular polymeric heterojunction (SPhIC60) with potential applications in electron transport devices. Various characterization techniques confirmed the structure and properties of SPh, while also revealing the electron transfer process between SPh and C-60.