Buscar
Mostrando ítems 1-10 de 53
Two-dimensional porous sheet-like carbon-doped ZnO/g-C3N4nanocomposite with high visible-light photocatalytic performance
(Elsevier B.V., 2017)
© 2016 Elsevier B.V.The ZnO/g-C3N4nanocomposites were synthesized by a single-step and scalable synthesis method through calcining the mixture of zinc acetate and urea. Two-dimensional shape, porous and carbon-doped ...
Synthesis And Porous H-bn 3d Architectures For Effective Humidity And Gas Sensors
(Royal Soc ChemistryCambridge, 2016)
Inorganic Graphenylene: A Porous Two-Dimensional Material With Tunable Band Gap
(Amer Chemical Soc, 2014-10-16)
By means of ab initio calculations, we investigate the possibility of existence of a boron nitride (BN) porous two-dimensional nanosheet, which is geometrically similar to the carbon allotrope known as biphenylene carbon. ...
Inorganic Graphenylene: A Porous Two-Dimensional Material With Tunable Band Gap
(Amer Chemical Soc, 2015)
Inorganic Graphenylene: A Porous Two-Dimensional Material With Tunable Band Gap
(Amer Chemical Soc, 2015)
The separation performance of porous carbon nitride membranes for removal of nitrate and nitrite ions from contaminated aqueous solutions: A molecular dynamics study
(Elsevier, 2022)
Two-dimensional nanoporous carbon-based membrane has proved to be a promising reverse osmosis (RO) membrane for contaminated ions separation from water. In this study, molecular dynamics simulations are conducted to assess ...
Exfoliação em fase líquida de nanofolhas MoS2 e WS2 para a preparação de aerogéis nanocompósitos com potenciais aplicações ambientais
(Universidade Estadual Paulista (Unesp), 2021-03-02)
In this project, we sought to develop aerogels with molybdenum and tungsten disulfide nanosheets, in order to create a highly porous and reactive material, since the disulfides in their nanostructured form acquire properties ...
Inorganic Graphenylene: A Porous Two-dimensional Material With Tunable Band Gap
(American Chemical Society, 2014)
Low-density Three-dimensional Foam Using Self-reinforced Hybrid Two-dimensional Atomic Layers
(Nature Publishing Group, 2014)