Effect of Pt loading on the hydrogen production of CNT/Pt composites functionalized with carboxylic groups

C Mercado-Zúñiga, J Oliva, JR Vargas-García… - International Journal of …, 2020 - Elsevier
International Journal of Hydrogen Energy, 2020Elsevier
This work reports the morphological and photocatalytic hydrogen generation properties of
CNT/Pt composites with and without functionalization by carboxylic/oxygen groups. The
composites with and without functionalization were named f-CNT/Pt and CNT/Pt,
respectively. Several f-CNT/Pt and CNT/Pt composites with different content of Pt NPs (from
0 to 30 wt%) were synthesized and analyzed by scanning electron microscopy (SEM). Those
images revealed that the composites without functionalization presented higher …
Abstract
This work reports the morphological and photocatalytic hydrogen generation properties of CNT/Pt composites with and without functionalization by carboxylic/oxygen groups. The composites with and without functionalization were named f-CNT/Pt and CNT/Pt, respectively. Several f-CNT/Pt and CNT/Pt composites with different content of Pt NPs (from 0 to 30 wt%) were synthesized and analyzed by scanning electron microscopy (SEM). Those images revealed that the composites without functionalization presented higher agglomerations of Pt nanoparticles (NPs). Furthermore, the average sizes of the Pt NPs in the named f-CNT/Pt composites (2.3–2.9 nm) were lower than these in the CNT/Pt composites (2.5–3.1 nm). The hydrogen generation rates were also calculated from the decomposition of pure water under UV irradiation (365 nm) and found maximum values of 45.4 and 193.9 μmol·h−1 g−1 for the CNT/Pt and f-CNT/Pt composites (they contained 20 wt% of Pt NPs), respectively. Additional experiments for hydrogen generation were achieved using sodium sulfite as sacrificial agent; in this case, a maximum value of 13850 μmol·h−1 g−1 was obtained for the f-CNT/Pt composite. The f-CNT/Pt composites produced more hydrogen than the CNT/Pt composites because they presented higher content of defects; this was confirmed by the Raman spectra. We also showed that the Pt NPs acted as electron trap centers, which delayed the recombination of the photogenerated electrons and holes, this in turn, enhanced the hydrogen generation rates of the composites (the hydrogen generation was maximized by varying the content of Pt NPs deposited on the CNTs). The CNT/Pt composites presented here were simpler and easier to synthesize than the previous published ternary systems based on TiO2, CNTs and Pt NPs.
Elsevier
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