Vien Vo scite author profile

In general, the polysulfone (PSf ) membranes are popular choices for water treatment because they have high thermal stability and good chemical resistance. On the other hand, the filtration capacity of the polysulfone membrane is limited because of its low water flux and poor antifouling ability, which are caused by the low surface hydrophilicity of the membranes. In this research, blending of graphene oxide (GO) or graphene oxide-titanium dioxide (GO-TiO 2 ) mixture into the polysulfone matrix had been carried out through the phase inversion method to enhance the hydrophilic and antifouling properties. Methods such as energydispersive X-ray spectroscopy, scanning electron microscopy, Fourier transform infrared spectroscopy, and water contact angle measurement were used to examine the surface properties of the prepared membranes. Experimental results have led to a conclusion that graphene oxide can be stabilized into prepared membranes, and then, by reducing the water contact angle values, the surface of these membranes becomes hydrophilic, which increases the permeability and the water flux of methylene blue from the aqueous feed solution, improving the membrane's antifouling resistance.

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Mesolamellar Phases Containing [Re₆Q₈(CN)₆]^4– (Q = Te, Se, S) Cluster Anions

Huh

Kim

et al. 2008

Eur J Inorg Chem

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One-pot synthesis of S-scheme MoS2/g-C3N4 heterojunction as effective visible light photocatalyst

Huu

Thi

Nguyen

et al. 2021

Sci Rep

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Despite pioneering as the holy grail in photocatalysts, abundant reports have demonstrated that g-C3N4 performs poor photocatalytic activity due to its high recombination rate of photo-induced charge carriers. Many efforts have been conducted to overcome this limitation in which the semiconductor–semiconductor coupling strategies toward heterojunction formation were considered as the easiest but the most effective method. Herein, a one-pot solid-state reaction of thiourea and sodium molybdate as precursors at different temperatures under N2 gas was applied for preparing composites of MoS2/g-C3N4. The physicochemical characterization of the final products determines the variation in contents of components (MoS2 and g-C3N4) via the increase of synthesis temperature. The enhanced photocatalytic activity of the MoS2/g-C3N4 composites was evaluated by the degradation of Rhodamine B in an aqueous solution under visible light. Therein, composites synthesized at 500 °C showed the best photocatalytic performance with a degradation efficiency of 90%, much higher than that of single g-C3N4. The significant improvement in photocatalytic performance is attributed to the enhancement in light-harvesting and extension in photo-induced charge carriers’ lifetime of composites which are originated from the synergic effect between the components. Besides, the photocatalytic mechanism is demonstrated to well-fit into the S-scheme pathway with apparent evidences.

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Vien Vo

One-step synthesis of oxygen doped g-C3N4 for enhanced visible-light photodegradation of Rhodamine B

Facile construction of S-scheme SnO2/g-C3N4 photocatalyst for improved photoactivity

Preparation and Characterization of a Hydrophilic Polysulfone Membrane Using Graphene Oxide

Mesolamellar Phases Containing [Re₆Q₈(CN)₆]^4– (Q = Te, Se, S) Cluster Anions

One-pot synthesis of S-scheme MoS2/g-C3N4 heterojunction as effective visible light photocatalyst

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Vien Vo

One-step synthesis of oxygen doped g-C3N4 for enhanced visible-light photodegradation of Rhodamine B

Facile construction of S-scheme SnO2/g-C3N4 photocatalyst for improved photoactivity

Preparation and Characterization of a Hydrophilic Polysulfone Membrane Using Graphene Oxide

Mesolamellar Phases Containing [Re6Q8(CN)6]4– (Q = Te, Se, S) Cluster Anions

One-pot synthesis of S-scheme MoS2/g-C3N4 heterojunction as effective visible light photocatalyst

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Resources

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Mesolamellar Phases Containing [Re₆Q₈(CN)₆]^4– (Q = Te, Se, S) Cluster Anions