Nanocellulose is promising as a flexible tailor-made substrate. Due to the versatility properties, functional groups, and modularity of the different morphologies, combining different metal fillers offers various opportunities to achieve composit...
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Ultrasound‐Assisted Synthesis of Humic‐Silica Composites by the Isolation of Humic Substances from Peat and Lignite
Von Wiley-VCH zur Verfügung gestellt
The presented research focused on the new direct procedure for the synthesis of humic silica composites by the isolation of humic substances from peat and lignite. Process optimization was carried out based on the design of the experiment and statistical assessment. For the qualitative assessment of synthetized materials, spectroscopic methods (ATR-FTIR and CP/MAS 13C NMR) methods as well as thermal analysis (TG-DTA-DTG and EGA) were applied.
Abstract
The aim of the presented study was to evaluate an integrated, direct procedure for the synthesis of humic-silica composites (HSiC) by the isolation of humic substances (HS) from peat and lignite by the use of sodium silicate solution as an extractant. The obtained materials, because of the presence of humic functional groups, may potentially be used for removing contaminants from aqueous solutions. The quantitative assessment was based on experiments designed according to the Box-Behnken plan. The statistical analysis of the results allowed to determine the optimal conditions of the process tested, for which the isolation efficiency of humic substances (HS) was greater than 50 % for both raw materials. This made it possible to synthesize humic silica composites with a high content of HS, which have been qualitatively evaluated. This step was focused on the analysis of the humic structure using elemental analysis, spectroscopic methods, and differential thermal analysis coupled with thermogravimetry. On the basis of them, the presence of structures characteristic for HS in the HSiC tested was observed. Moreover, the results of the thermal analysis pointed to the higher thermal stability of the synthesized compounds, compared to the HS isolated with the use of a traditional extractant.
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