posted on 2020-03-19, 12:37authored byZhikai Li, Yiming Li, Yiming Zhao, Heng Wang, Yuan Zhang, Bo Song, Xiaohong Li, Shuai Lu, Xin-Qi Hao, Saw-Wai Hla, Yingfeng Tu, Xiaopeng Li
During
the past few decades, the study of the single polymer chain
has attracted considerable attention with the goal of exploring the
structure–property relationship of polymers. It still, however,
remains challenging due to the variability and low atomic resolution
of the amorphous single polymer chain. Here, we demonstrated a new
strategy to visualize the single metallopolymer chain with a hexameric
or trimeric supramolecule as a repeat unit, in which Ru(II) with strong
coordination and Fe(II) with weak coordination were combined together
in a stepwise manner. With the help of ultrahigh-vacuum, low-temperature
scanning tunneling microscopy (UHV-LT-STM) and scanning tunneling
spectroscopy (STS), we were able to directly visualize both Ru(II)
and Fe(II), which act as staining reagents on the repeat units, thus
providing detailed structural information for the single polymer chain.
As such, the direct visualization of the single random polymer chain
is realized to enhance the characterization of polymers at the single-molecule
level.