Add to ORKGBy a chemical method, using a method offered by Massart, where as the use of initial solutions of chlorous and chloric iron magnetite is produced, possessing sorbate properties in relation to the ions of lead(II) and copper(II). Influence of different factors (pH, temperature, time) on the degree of sorption is investigated. A specific surface area of magnetite is measured by the method of Bruner-Emmet-Teller on the analyzer of NOVA 1000e. Structural parameters and phase composition of standards are investigationed by X-ray fluores-cence energy-dispersive spectrometer of brand «BRA-18». The best values of acidity of environment are de-termined for flowing of sorption process on magnetite. Conducted measurements of ζ -potential before and af...
The development of environmental-friendly lixiviants as alternatives to cyanide and the increasing r...
Iron oxides are abundant in natural waters and soils and have high capacities for scavenging Pb(II) ...
In this work, the process of water deironing by using magnetite as a catalyst to accelerate the oxid...
By a chemical method, using a method offered by Massart, where as the use of initial solutions of ch...
Development of reliable, environmentally safe and economically advantageous methods of water purific...
Due to the growth of man-caused pollution, there is a need to use modern methods of water purificati...
This paper addresses the possibility of using magnetite nanoparticles for sorption concentration of ...
Natural magnetite was investigated for the removal of Pb(II), Cu(II) and Zn(II) ions from water samp...
WOS: 000407305300003Natural magnetite was investigated for the removal of Pb(II), Cu(H) and Zn(H) io...
© The author(s). This paper is focused on the possibility of using magnetite powders obtained by che...
Copyright © 2019 American Scientific Publishers. All rights reserved. The process of adsorption of ...
The surface chemistry of inorganic materials is of great significance in a number of industrially im...
Natural magnetite was investigated for the removal of Pb(II), Cu(H) and Zn(H) ions from water sample...
IPolyphinylchloride was modified by polyethylene polyamine, and the ionites were studied in static c...
The development of environmental-friendly lixiviants as alternatives to cyanide and the increasing r...
Iron oxides are abundant in natural waters and soils and have high capacities for scavenging Pb(II) ...
In this work, the process of water deironing by using magnetite as a catalyst to accelerate the oxid...
By a chemical method, using a method offered by Massart, where as the use of initial solutions of ch...
Development of reliable, environmentally safe and economically advantageous methods of water purific...
Due to the growth of man-caused pollution, there is a need to use modern methods of water purificati...
This paper addresses the possibility of using magnetite nanoparticles for sorption concentration of ...
Natural magnetite was investigated for the removal of Pb(II), Cu(II) and Zn(II) ions from water samp...
WOS: 000407305300003Natural magnetite was investigated for the removal of Pb(II), Cu(H) and Zn(H) io...
© The author(s). This paper is focused on the possibility of using magnetite powders obtained by che...
Copyright © 2019 American Scientific Publishers. All rights reserved. The process of adsorption of ...
The surface chemistry of inorganic materials is of great significance in a number of industrially im...
Natural magnetite was investigated for the removal of Pb(II), Cu(H) and Zn(H) ions from water sample...
IPolyphinylchloride was modified by polyethylene polyamine, and the ionites were studied in static c...
The development of environmental-friendly lixiviants as alternatives to cyanide and the increasing r...
Iron oxides are abundant in natural waters and soils and have high capacities for scavenging Pb(II) ...
In this work, the process of water deironing by using magnetite as a catalyst to accelerate the oxid...
