posted on 2022-03-22, 15:07authored byZhong-Cheng Guo, Mei-Lin You, Zi-Jie Wang, Zi-Feng Li, Gang Li
The
inherent porous structures and aligned functional units inside
the skeleton of covalent organic frameworks (COFs) provide an extraordinary
promise for post-modification and deservedly expand their application
in the field of proton conduction. Herein, we tactfully introduced
copper ions into a two-dimensional COF (TpTta) furnished with ample
N,O-chelating sites by a post-modification strategy to achieve two
copper(II)-modified products, namely, CuCl2@TpTta-3 and
CuCl2@TpTta-10. Inspiringly, the two modified COFs demonstrated
the higher conductivities of 1.77 × 10–3 and
8.81 × 10–3 S cm–1 under
100 °C and 98% relative humidity, respectively, among the previously
reported COFs with higher σ values. In comparison to the pristine
COFs, the σ values of CuCl2@TpTta-3 and CuCl2@TpTta-10 are boosted by 2 orders of magnitude. On the basis
of structural analyses, nitrogen and water vapor adsorption tests,
and proton conduction mechanism analysis, we deeply analyzed the reason
why the conductivity of the modified COFs was significantly increased.
To the best of our knowledge, it is the first time to employ the CuCl2-modified strategy to boost the conductivity of COFs, which
offers a wise idea for the fabrication of highly conductive materials
in the field of fuel cells.