Abstract
Hexavalent chromium Cr(VI) pollution makes has a harmful impact on human health and the ecological environment. Photocatalysis reduction technology exhibits low energy consumption, high reduction efficiency and stable performance, and is playing an increasingly important role in chromium pollution control. Graphite-phase carbon nitride has been used to reduce Cr(VI) to the less harmful Cr(III) due to its visible light catalytic activity, chemical stability and low cost. However, it has a low specific surface area and fast recombination of electron–hole pairs, which severely restrict its practical application. In this work, a TiO2-modified poly(triazine imide) (PTI) square nanotube was prepared by the one-step molten salts method. The results showed the PTI had a square hollow nanotube morphology, with an about 100–1000 nm width and 60–70 nm thickness. During the formation of the PTI square tube, TiO2 nanoparticles adhere to the surface of the square tube wall by strong adsorption, and eventually form a PTI/TiO2 heterojunction. The PTI/TiO2-7 wt% heterojunction exhibited very good Cr(VI) reduction efficiency within 120 min. The enhanced photocatalytic activity was mainly attributed to the efficient separation and transport of photo-induced electron–hole pairs and the high specific surface area in the heterojunction structure.
Highlights
Chromium is a typical heavy metal pollutant from electroplating, leather tanning, and corrosion protection
The results showed that the TiO2 nanoparticles remained stable in the molten salts system
The results showed that the poly(triazine imide) (PTI) square nanotube/TiO2 heterojunction still n contents is similar to that of
Summary
Chromium is a typical heavy metal pollutant from electroplating, leather tanning, and corrosion protection. In the chemical compound of chromium, hexavalent chromium Cr(VI) has the strongest toxicity and it is dissolved with the infiltration of rainwater, which could seriously pollute the soil, river and underground water sources of the surrounding environment [1,2]. Photocatalysis reduction technology exhibits low energy consumption, high reduction efficiency and stable performance, and plays an increasingly important role in chromium pollution control. Many semiconductor materials such as TiO2 and ZnO have been used for photocatalysis Cr(VI) reduction [3,4]
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