MXene-based nanocomposites: emerging candidates for the removal of antibiotics, dyes, and heavy metal ions
Transition metal carbides and nitrides (MXenes) have been regarded as a promising
material for the separation and removal of toxic pollutants from the environment due to its …
material for the separation and removal of toxic pollutants from the environment due to its …
Covalent organic framework-based lamellar membranes for water desalination applications
Covalent Organic Framework (COF)-based two-dimensional materials have great potential
to be utilized as separation membranes with high permeability and rejection while mitigating …
to be utilized as separation membranes with high permeability and rejection while mitigating …
Fabrication and characterization of MXene/carbon composite-based nanofibers (MXene/CNFs) membrane: An efficient adsorbent material for removal of Pb+ 2 and …
High contamination of toxic heavy metals such as lead (Pb 2+) and arsenic (As 3+) in water
is a major threat to human health and aquatic life. Recently, MXene has been applied as a …
is a major threat to human health and aquatic life. Recently, MXene has been applied as a …
Lamellar graphene oxide-based composite membranes for efficient separation of heavy metal ions and desalination of water
Sufficient efforts have been carried out to fabricate highly efficient graphene oxide (GO)
lamellar membranes for heavy metal ion separation and desalination of water. However …
lamellar membranes for heavy metal ion separation and desalination of water. However …
Fabrication of nano composite membrane filter from graphene oxide (GO) and banana rachis cellulose nano crystal (CNC) for industrial effluent treatment
Agricultural bio-waste based cellulosic materials are highly biodegradable and naturally
occurring with high adsorption and capable of outstanding physico-chemical properties. This …
occurring with high adsorption and capable of outstanding physico-chemical properties. This …
[HTML][HTML] Facile synthesis of SnO2/graphene and Bi–SnO2/graphene-based nanocomposites as electrode materials for energy storage devices
Graphene-based nanocomposites are widely investigated as cathode materials for energy
storage device. Herein, tin oxide-modified graphene (SnO 2/G) and bismuth-doped SnO 2/G …
storage device. Herein, tin oxide-modified graphene (SnO 2/G) and bismuth-doped SnO 2/G …
Photocatalytic degradation of Rhodamine B dye over oxygen-rich bismuth oxychloride Bi24O31Cl10 photocatalyst under UV and Visible light irradiation: Pathways …
Photocatalytic removal of organic pollutants from wastewater has recently garnered
significant attention due to its environmental and ecological significance. In this study, a …
significant attention due to its environmental and ecological significance. In this study, a …
Highly efficient nickel fluoride nanoparticles with enhance electrochemical properties
Due to their unique physical and chemical characteristics, nanostructured materials of
various architectures have demonstrated tremendous promise in the fields of energy and the …
various architectures have demonstrated tremendous promise in the fields of energy and the …
Synergistic effects of photocatalysis-periodate activation system for the degradation of emerging pollutants using GO/MgO nanohybrid
The combination between periodate (PI) activation and photocatalysis processes using
heterogeneous catalysts can overcome the slow degradation rates related to photocatalysis …
heterogeneous catalysts can overcome the slow degradation rates related to photocatalysis …
Functionalized graphene oxide with bismuth and titanium oxide nanoparticles for efficiently removing formaldehyde from the air by photocatalytic degradation …
Formaldehyde (HCHO) is formed through the oxidation of volatile organic compounds
(VOCs) and can cause human cancer. Bismuth oxide and titanium oxide nanoparticles …
(VOCs) and can cause human cancer. Bismuth oxide and titanium oxide nanoparticles …