TY - JOUR

T1 - Recent advances in niobium-based materials for photocatalytic solar fuel production

AU - Nunes, Barbara Nascimento

AU - Lopes, Osmando Ferreira

AU - Patrocinio, Antonio Otavio T.

AU - Bahnemann, Detlef W.

N1 - Funding information: This research was funded by Doutorado CAPES/DAAD/CNPQ (15/2017) grant number 88887.161403/2017-00. The present study was also financially supported by the Saint-Petersburg State University (Grant No. 39054581) Osmando F. Lopes also acknowledges to CNPq (Conselho Nacional de Desenvolvimento Científico e Tecnológico) for the financial support (grants #407497/2018-8).

PY - 2020/1/16

Y1 - 2020/1/16

N2 - The search for renewable and clean energy sources is a key aspect for sustainable development as energy consumption has continuously increased over the years concomitantly with environmental concerns caused by the use of fossil fuels. Semiconductor materials have great potential for acting as photocatalysts for solar fuel production, a potential energy source able to solve both energy and environmental concerns. Among the studied semiconductor materials, those based on niobium pentacation are still shallowly explored, although the number of publications and patents on Nb(V)-based photocatalysts has increased in the last years. A large variety of Nb(V)-based materials exhibit suitable electronic/morphological properties for light-driving reactions. Not only the extensive group of Nb 2O 5 polymorphs is explored, but also many types of layered niobates, mixed oxides, and Nb(V)-doped semiconductors. Therefore, the aim of this manuscript is to provide a review of the latest developments of niobium based photocatalysts for energy conversion into fuels, more specifically, CO 2 reduction to hydrocarbons or H 2 eVolution from water. Additionally, the main strategies for improving the photocatalytic performance of niobium-based materials are discussed.

AB - The search for renewable and clean energy sources is a key aspect for sustainable development as energy consumption has continuously increased over the years concomitantly with environmental concerns caused by the use of fossil fuels. Semiconductor materials have great potential for acting as photocatalysts for solar fuel production, a potential energy source able to solve both energy and environmental concerns. Among the studied semiconductor materials, those based on niobium pentacation are still shallowly explored, although the number of publications and patents on Nb(V)-based photocatalysts has increased in the last years. A large variety of Nb(V)-based materials exhibit suitable electronic/morphological properties for light-driving reactions. Not only the extensive group of Nb 2O 5 polymorphs is explored, but also many types of layered niobates, mixed oxides, and Nb(V)-doped semiconductors. Therefore, the aim of this manuscript is to provide a review of the latest developments of niobium based photocatalysts for energy conversion into fuels, more specifically, CO 2 reduction to hydrocarbons or H 2 eVolution from water. Additionally, the main strategies for improving the photocatalytic performance of niobium-based materials are discussed.

KW - Artificial photosynthesis

KW - NbO

KW - Niobates

KW - Niobium

KW - Water splitting

KW - Nb O

UR - http://www.scopus.com/inward/record.url?scp=85078441951&partnerID=8YFLogxK

U2 - 10.3390/catal10010126

DO - 10.3390/catal10010126

M3 - Review article

VL - 10

JO - CATALYSTS

JF - CATALYSTS

SN - 2073-4344

IS - 1

M1 - 126

ER -