id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
work_hbijvvt2zjbx3ei6fnwm5rjrwy	Dongxiang Luo	Carbon Dots-Decorated Bi2WO6 in an Inverse Opal Film as a Photoanode for Photoelectrochemical Solar Energy Conversion under Visible-Light Irradiation	2019.0	11	.pdf	application/pdf	7544	740	61	Carbon Dots-Decorated Bi2WO6 in an Inverse Opal Film as a Photoanode for Photoelectrochemical Solar Energy Conversion under Visible-Light Irradiation Bi2WO6@mac-FTO photoelectrode were examined in a 0.1 M NaSO4 electrolyte solution under light elemental mapping images (Figure 2f) of the CDs/Bi2WO6@mac-FTO photoelectrode indicate that the show the LR-TEM images of the CDs/Bi2WO6@mac-FTO photoelectrodes. show the LR-TEM images of the CDs/Bi2WO6@mac-FTO photoelectrodes. images (Figure 2f) of the CDs/Bi2WO6@mac-FTO photoelectrode indicate that the C, O, W, Sn and Bi (a–c) TEM images of the CDs/Bi2WO6@mac-FTO photoelectrode. (a–c) TEM images of the CDs/Bi2WO6@mac-FTO photoelectrode. Figure 4, enhanced light absorbance was observed in the CDs/Bi2WO6@mac-FTO photoelectrode Figure 4, enhanced light absorbance was observed in the CDs/Bi2WO6@mac-FTO photoelectrode Figure 4, enhanced light absorbance was observed in the CDs/Bi2WO6@mac-FTO photoelectrode density (0.272 mA·cm−2) of the CDs/Bi2WO6@mac-FTO photoelectrode was obtained at pH = 9 (0 V Synthesis of the Bi2WO6@mac-FTO Photoelectrode Decorated with CDs Synthesis of the Bi2WO6@mac-FTO Photoelectrode Decorated with CDs 	./cache/work_hbijvvt2zjbx3ei6fnwm5rjrwy.pdf	./txt/work_hbijvvt2zjbx3ei6fnwm5rjrwy.txt