Published July 3, 2025 | Version v1

Development of porous membranes by alkali activation of borosilicate glass: effect of wastewater acidity on copper adsorption

  • 1. FunGlass – Centre for Functional and Surface Functionalized Glass, Alexander Dubˇcek University of Trenˇcín, Studentsk ˇ a ´ 2, 911 50, Trenˇcín, Slovakia
  • 2. Department of Industrial Engineering, University of Padova, Via Marzolo 9, Padova, 35131, Italy

Description

A highly porous membrane was prepared through weak alkali activation of Duran-type borosilicate glass using a 2.5 M NaOH:KOH solution. The incorporation of fine glass powder (<1 μm) significantly enhances glass network reactivity by increasing the surface area in contact with the alkaline solution. This promotes the dissolution of
glass constituents, leading to their subsequent polymerization. Following this process, the material undergoes low-temperature curing at 40 ◦C, aiding consolidation and stabilization. The resulting porous structure shows excellent performance in copper removal from aqueous media. While adsorption of copper is strongly influenced
by the pH of the solution, the adsorption capacity can be adjusted through surface treatment of the activated material. The developed borosilicate-based membranes treated in boiling water can remove between 92 % and 99 % of copper (II) at pH levels 2 and 5, respectively, whereas “raw” alkali-activated samples achieve up to 65 %
copper (II) removal at pH 2. These findings underscore the need for tailored strategies to optimize membrane performance across varying pH conditions.

Files

Development of porous membranes by alkali activation of borosilicate glass.pdf

Additional details

Identifiers

ISSN
2666-1659

Funding

European Commission
FunGlass - Centre for functional and surface-functionalized glasses 739566

Dates

Available
2025-07-03
journal article