posted on 2019-12-18, 18:05authored byRong-Ran Liang, Ru-Han A, Shun-Qi Xu, Qiao-Yan Qi, Xin Zhao
Covalent organic frameworks (COFs) are an emerging class
of crystalline
porous organic polymers with potential for innovative applications.
Here we report the use of COFs as precursors for the fabrication of
well-defined tubular nanomaterials. A proof-of-concept study is presented
for the controllable fabrication of organic nanotubes through selective
disassembly of two-dimensional heteropore COFs. Two dual-pore COFs
are constructed based on orthogonal reactions. Each COF possesses
two different kinds of pores, which are formed by linking all-hydrzaone-bonded
nanopores with boroxines. Selectively hydrolyzing boroxine rings in
the COFs while keeping hydrazone linkages untouched gives rise to
organic nanotubes with diameters and shapes corresponding to the nanochannels
of the COFs.