Controlling the structure and photocatalytic properties of three - dimensional aerogels obtained by simultaneous reduction and self-assembly of BiOI/GO aqueous colloidal dispersions

PUIG, JULIETA; DE CASTRO ALVES, LISANDRA; GARCÍA-ACEVEDO, P.; ARNOSA-PRIETO, A.; YAÑEZ-VILLAR, S.; TEIJEIRO VALIÑO, CARMEN; PIÑEIRO, YOLANDA; HOPPE, CRISTINA; RIVAS, JOSE

Nano Express

IOP PUBLISHING

Año: 2021 vol. 2 p. 20015 - 20015

Water pollution affects all living habitats, since it is the most basic element that sustains all life forms and, as an exceptional solvent, it readily makes any compound available for living cells, either nutrients or noxious substances. Elimination of molecular contaminants from water quality is one of the most challenging technical problems that conventional treatments like flocculation and filtration fail short to defeat. Particulate photocatalysts, used to degrade contaminants, have the main drawback of their recovery from the water matrices. The inclusion of photocatalytic nanoparticles (NPs) into a large supporting framework, is presented as an innovative approach aiming to ensure a facile separation from water. To this end, three-dimensional (3D) aerogels with photocatalytic properties were prepared by a simple and scalable method based on the reduction - induced self-assembly of graphene oxide (GO) in the presence of BiOI nanoparticles (NPs). With the help of ascorbic acid, as a green reducing agent, partial reduction of GO into reduced graphene oxide (RGO) and self-assembly of both kinds of nanostructures into a porous monolith was achieved. BiOI doped RGO aerogels were further stabilized and morphologically controlled using poly (ethylene glycol) as stabilizer. The photocatalytic performance of these aerogels was evaluated by following the discoloration of methylene blue (MB) solution, under visible light irradiation, showing that structure and dispersion degree of NPs to be fundamental variables. Hence, this methodology is proposed to produce hybrid aerogels with controlled morphology and photocatalytic performance that has the potential to be used in water cleaning procedures.