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Structure and Properties of the Xerogels Based on Potassium Silicate Liquid Glass and Urea.

Alexander V GorokhovskyIgor N BurmistrovDenis KuznetsovAlexander A GusevBekzod KhaydarovNikolay KiselevElena BoychenkoEvgeny A KolesnikovKsenia ProkopovichYuri KonyukhovMaksim Kravchenko
Published in: Molecules (Basel, Switzerland) (2023)
The xerogels based on the aqueous solutions of urea in potassium silicate liquid glass (PSLG) were produced by CO 2 bubbling and investigated. The structure and chemical composition of the obtained materials were analyzed. Using the SEM, XRD, IR-FT, DSC, and low energy local EDS analysis, it was recognized that the dried gels (xerogels) contained three forms of urea: oval crystals of regular shape appeared onto the surface of xerogel particles; fibrous crystals were located in the silicate matrix; and molecules/ions were incorporated into the silicate matrix. It was shown that an increase in [(NH 2 ) 2 CO] in the gel-forming system promoted increased contents in crystalline forms of urea as well as the diameter of the fiber-shaped urea crystals. A rate of the urea release in water from the granulated xerogels containing 5.8, 12.6, and 17.9 wt.% of urea was determined by the photometric method. It was determined that the obtained urea-containing xerogels were characterized with a slow release of urea, which continued up to 120 days, and could be used as controlled release fertilizers containing useful nutrients (N, K).
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