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The aim of this study was to effectively combine synthetic magnesium silicate with the lignin-derived biopolymer calcium lignosulfonate, using the in situ sol-gel route. Magnesium ethoxide and tetraethoxysilane were used as precursors of MgO and SiO2. The synthesis was carried out in alcoholic solution with the addition of ammonia solution as a promoter of hydrolysis. Calcium lignosulfonate was introduced to the reaction medium prior to the synthesis of magnesium silicate. The resulting hybrid powder material was thoroughly characterized, including morphology and particle sizes (SEM microscopy and the DLS technique), porous structure parameters (the BET method and BJH model), thermal stability (TG analysis) and electrokinetic stability (LDV measurements). FTIR spectral analysis was carried out to confirm the effectiveness of the proposed synthesis methodology. Based on the results, a mechanism is proposed for the MgSiO3/lignosulfonate interactions. The resulting novel type of hybrid material combines the multifunctional nature of the biopolymer (diversity of functional groups) with the well-developed porous structure of synthetic magnesium silicate. Its physicochemical parameters were found to depend significantly on the quantity of lignosulfonate used in the synthesis.
Rocznik
Tom
Strony
793--802
Opis fizyczny
Bibliogr. 22 poz., rys. kolor.
Twórcy
autor
- Poznan University of Technology
autor
- Poznan University of Technology
autor
- Poznan University of Technology, M. Sklodowskiej-Curie 2, PL-60965 Poznan, Poland
autor
- Poznan University of Technology
autor
- Poznan University of Technology
Bibliografia
- 1. BULA, K., KLAPISZEWSKI, L., JESIONOWSKI, T., 2015. A novel functional silica/lignin hybrid material as a potential bio-based polypropylene filler, Polym. Compos. 36, 913-922.
- 2. CIESIELCZYK, F., KLAPISZEWSKI, L., SZWARC-RZEPKA, K., JESIONOWSKI, T., 2014. A novel method of combination of Kraft lignin with synthetic mineral support, Adv. Powder Technol. 25, 695-703.
- 3. CIESIELCZYK, F., BARTCZAK, P., KLAPISZEWSKI, L., JESIONOWSKI, T., 2017. Treatment of model and galvanic waste solutions of copper(II) ions using a lignin/inorganic oxide hybrid as an effective sorbent, J. Hazard. Mater. 328, 150-159.
- 4. CUI, J., SUN, H., 2015. Preparation of siliceous lignin microparticles from wheat husks with a facile method, Ind. Crop. Prod. 74, 689-696.
- 5. JESIONOWSKI, T., KRYSZTAFKIEWICZ, A., 2000. Comparison of the techniques used to modify amorphous hydrated silicas, J. Non-Cryst. Sol. 277, 45-57.
- 6. JESIONOWSKI, T., KLAPISZEWSKI, L., MILCZAREK, G., 2014. Kraft lignin and silica as precursors of advanced composite materials and electroactive blends, J. Mater. Sci. 49, 1376-1385.
- 7. KLAPISZEWSKI, L., NOWACKA, M., MILCZAREK, G., JESIONOWSKI, T., 2013. Physicochemical and electrokinetic properties of silica/lignin biocomposites, Carbohydr. Polym. 94, 345-355.
- 8. KLAPISZEWSKI, L., RZEMIENIECKI, T., KRAWCZYK, M., MALINA, D., NORMAN, M., ZDARTA, J., MAJCHRZAK, I., DOBROWOLSKA, A., CZACZYK, K., JESIONOWSKI, T., 2015a. Kraft lignin/silica-AgNPs as a functional material with antibacterial activity, Colloid Surf. B 134, 220-228.
- 9. KLAPISZEWSKI, L., BARTCZAK, P., WYSOKOWSKI, M., JANKOWSKA, M., KABAT, K., JESIONOWSKI, T., 2015b. Silica conjugated with kraft lignin and its use as a novel ‘green’ sorbent for hazardous metal ions removal, Chem. Eng. J. 260, 684-693.
- 10. KLAPISZEWSKI, L., BULA, K., SOBCZAK, M., JESIONOWSKI, T., 2016. Influence of processing conditions on the thermal stability and mechanical properties of PP/silica-lignin composites, Int. J. Polym. Sci. 1627258, 1-9.
- 11. KOŁODYNSKA, D., GECA, M., PYLYPCHUK, I.V., HUBICKI, Z., 2016, Development of new effective sorbents based on nanomagnetite, Nano Res. Lett. 11, 1-8.
- 12. PANDEY, R.P., SHAHI, V.K., 2013. Functionalized silica-chitosan hybrid membrane for dehydration of ethanol/water azeotrope: Effect of cross-linking on structure and performance, J. Membr. Sci. 444, 116-126.
- 13. PATEL, M.K., ALI, M.A., ZAFARYAB, M., AGRAWAL, V.V., RIZVI, M.M.A., ANSARI, Z.A., ANSARI, S.G., MALHOTRA, B.D., 2013. Biocompatible nanostructured magnesium oxide-chitosan platform for genosensing application, Biosens. Bioelectr. 45, 181-188.
- 14. PORTUGAL, I., DIAS, V.M., DUARTE, R.F., EVTUGUIN, D.V., 2010. Hydration of cellulose/silica hybrids assessed by sorption isotherms, J. Phys. Chem. B 114, 4047-4055.
- 15. QU, Y., TIAN, Y., 2010. A novel mesoporous lignin/silica hybrid from rice husk produced by a sol–gel method, Bioresour. Technol. 101, 8402-8405.
- 16. RANGELOVA, N., ALEKSANDROV, L., ANGELOVA, T., GEORGIEVA, N., MÜLLER, R., 2014. Preparation and characterization of SiO2/CMC/Ag hybrids with antibacterial properties, Carbohydr. Polym. 101, 1166-1175.
- 17. SINGH, V., SINGH, S.K., PANDEY, S., SANGHI, R., 2010. Adsorption behavior of potato starch-silica nanobiocomposite, Adv. Mater. Lett. 1, 40-47.
- 18. SIWINSKA-STEFANSKA, K., CIESIELCZYK, F., NOWACKA, M., JESIONOWSKI, T., 2012. Influence of selected alkoxysilanes on dispersive properties and surface chemistry of titanium dioxide and TiO2-SiO2 composite material, J. Nanomater. 2012, 1-19.
- 19. WITOON, T., CHAREONPANICH, M., LIMTRAKUL J., 2009. Effect of acidity on the formation of silica–chitosan hybrid materials and thermal conductive property, J. Sol-Gel Sci. Technol. 51, 146-152.
- 20. XIONG, W., YANG, D., 2015. Preparation of lignin-based silica composite submicron particles from alkali lignin and sodium silicate in aqueous solution using a direct precipitation method, Ind. Crop. Prod. 74, 285-292.
- 21. YU, P., HE, H., 2016. A comprehensive study on lignin as a green alternative of silica in natural rubber composites, Polym. Test. 54, 176-185.
- 22. ZHANG, X., ZHAO, Z., 2013. Synthesis of lignin-modified silica nanoparticles from black liquor of rice straw pulping, Powder Technol. 246, 664-668.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5a7a6595-a4b8-4e0e-a51f-49a94f5faa09