One-step synthesis of MOF-derived Cu@N-doped carbon composites as counter electrode catalysts for quantum dot-sensitized solar cells

摘要

The nitrogen-doped carbon supported Cu nanoparticles composite materials (Cu@N-C) have been recognized as the excellent counter electrode catalysts for quantum dot-sensitized solar cells (QDSCs). Herein, the Cu@N-C composites were synthesized via facile one-step pyrolysis of nitrogen-containing Cu-MOFs precursor. By controlling the reaction temperature from 600 to 10 0 0 degrees C, the Cu@N-C-x (x is the pyrolysis temperature) catalysts are obtained. An ordered nitrogen-doped graphitized carbon lattice around Cu nanoparticles of the Cu@N-C-x improves the conductivity of counter electrodes (CEs), and uniform doping of nitrogen in the carbon enhances the wettability of the carbon material. The Cu@N-C-900/FTO CEs prepared exhibit higher electrocatalytic activity than both pristine N-C/FTO and Cu@C/FTO CEs, which could be ascribed to the synergistic effect between abundant CuxS catalytic active sites and nitrogen-doped graphitic carbon. It is noted that the Cu@N-C-900/FTO CEs also show superior catalytic activity compared to CuS@g-CNx/FTO CEs due to the higher specific surface area and porosity of the carbon skeleton. As a result, the QDSCs based on Cu@N-C-900/FTO CEs achieved the highest PCE of 8.63%, which is slightly higher than that of Cu@C/FTO CEs (8.20%) and CuS@g-CNx CEs (8.37%), and significantly higher than that of N-C/FTO CEs (6.52%). ? 2021 Elsevier Ltd. All rights reserved.