Synthesis and Hydration Properties of the Superabsorbent “Solid water”

Keywords: superabsorbent,, hydration properties,, water absorption,, pectin,, IR spectra

Abstract

Global warming has posed a number of challenges for agriculture. The key problem is water retention in soil. Existing irrigation methods are costly and ineffective. To solve this problem, a synthesis of a rare-cross-linked hydrophilic polymer material with the properties of a pectin-based superabsorbent was conducted.
The paper considers the structure and moisture absorption of the polymer material “Solid water”. The hydration properties of the superabsorbent in its original state and after contact with pectins were determined using IR spectroscopy. Our research showed that the water-adsorbing ability is ensured by the presence of short-sized acrylamide residues, fragments with residues of carboxyl groups and polysaccharide units in the structure. The superabsorbent with pectin as a biodegradable
component is able to retain a portion of water of hydration even during prolonged drying. The effect of the pH of the medium on the water absorption capacity and swelling of the superabsorbent “Solid water” was shown. This superabsorbent can be used in different types of soils, as confi rmed by the studies conducted in distilled water, as well as in alkaline and acidic media. The polymer is characterised by the highest swelling values in an alkaline medium due to the electrostatic repulsion of dissociated carboxyl groups, formed as a result of the hydrolysis of acrylamide. This makes it suitable for use in leached soils, such as leached black soil (Chernozem) in the Voronezh region.
IR spectroscopy showed the presence of the superabsorbent’s functional groups that form supramolecular structures including bound water molecules with no additional coordinate covalent bonds present. Thus, the reactions can be characterised as processes with the elements of system self-organisation.

 

 

 

 

REFERENCES

 

  1. Sharma J., Sukriti, Kaith B. S., Bhatti M. S. Fabrication of biodegradable superabsorbent using RSM design for controlled release of KNO3. Journal of Polymers and the Environment. 2018;26(2): 518-531. DOI: https://doi.org/10.1007/s10924-017-0959-8
  2. Rojas-Oviedo I., Rodríguez-Hernández S., Cárdenas J., Rivas-Ojeda J. C., Gaviño R. Synthesis, characterization and in vitro application of pH/temperature sensitive superabsorbent hydrogel of phosphated co-polymer of methacrylic acid and methyl methacrylate ester. Journal of Porous Materials. 2016;23(6): 1495-1505. DOI: https://doi.org/10.1007/s10934-016-0210-3
  3. Kuznetsov V. A., Selemenev V. F., Semenov V. N., Bakalova M. V. Method of obtaining a hydrophilic crosslinked polymer with superabsorbent properties. Patent No. 2574722 RF. 02.10.2016. Bull. No. 4.
  4. Gennis R. B. (ed.). Molecular Structure and Function. New York: Springer Science+Business Media; 1989.
  5. Lukin A. L., Kotov V. V., Myazin N. G. Sveklovichnyi pektin: ot polya do konechnogo produkta [Beet pectin: from the field to the final product] Monograph. V. Kotova (ed.). Voronezh: Izd-vo “Istoki” Publ.; 2005. 176 p. (In Russ.)
  6. Shtykov S. N. Lyuminestsentnyi analiz v organizovannykh sredakh [Luminescent analysis in organised environments]. In: Luminescent analysis [Lyuminestsentnyi analiz]. V. 19. Moscow: Nauka Publ.; 2015. p. 121 - 154. (In Russ.)
  7. Selemenev V. F., Rudakov O. B., Slavinskaya G. V., Drozdova N. V. Pigmenty pishchevykh proizvodstv (Melanoidiny) [Pigments of food industries (Melanoidins)]. Moscow: Deli Print Publ.; 2008. 246 p. (In Russ.)
  8. Silin P. M. Tekhnologiya sakhara [Sugar technology]. Moscow: Pishchevaya promyshlennost' Publ.; 1967. 625 p. (In Russ.)
  9. Gordon A., Ford R. Sputnik khimika. Fiziko-khimicheskie svoistva, metodiki, bibliografiya [Companion chemist. Physico-chemical properties, methods, bibliography] Moscow: Mir Publ.; 1967. 541 p. (in Russ.)
  10. Pimentel G. C. and McClellan A. L. The Hydrogen Bond. San Francisco: W. H. Freeman and Co.; 1960.
  11. Kazitsyna L. A., Kupletskaya N. B., Primenenie UF, IK- i YaMR-spektroskopii v organicheskoi khimii [The use of UV, IR, and NMR spectroscopy in organic chemistry]. Moscow: Vysshaya shkola Publ.; 1971. 264 p. (In Russ.)
  12. Uglyanskaya V. A., Chikin G. A., Selemenev V. F., Zav'yalova T. A. Infrakrasnaya spektroskopiya ionoobmennykh materialov [Infrared spectroscopy of ion-exchange materials.]. Voronezh: Voronezh State University; 1989. 207 p. (In Russ.)
  13. Shtokkhauzen D., Khartan Kh.-G., Brem G., Ionas G., Messner B., Pflyuger K. Absorbiruyushchie zhidkost' polimery i sposob ikh polucheniya. Patent No 2193045 RF. 1996; MKP C08F 220/06, A61L 15/60.
  14. Bykovskii D. V., Kuznetsov V. A., Sorokin A. V., Lavlinskaya M. S. The effect of the side azole substitutes on extraction ability of the copolymers based on N-vinylamides. Sorbtsionnye i Khromatograficheskie Protsessy. 2017;17(5): 804-811. DOI: https://doi.org/10.17308/sorpchrom.2017.17/442 (In Russ., abstract in )
  15. Bellamy L. J. The infrared spectra of complex molecules. London: Methuen; New York, Wiley; 1963. 300 p.
  16. Nakanishi K. Infrakrasnye spektry i stroenie organicheskikh soedinenii [Infrared spectra and structure of organic compounds]. Moscow: Mir Pub; 1965. 269 p. (In Russ.)
  17. Zhdankovich E. L., Annenkova V. Z., Annenkova V. M., Erofeeva L. G., Vladimirov V. A., Vladimirov D. V. Troinoi sopolimer akrilovoi kisloty, ammoniinoi soli akrilovoi kisloty i stirola v kachestve superabsorbenta. Patent No 2128191 RF. 1996; MKP C08F 220/06. (In Russ.)
  18. Herth G., Dannehl M., Steiner N. Water-soluble or water-swellable polymers, particularly water-soluble or water-swellable copolymers made of acryl-amide and at least one ionic comonomer having a low residual monomer concentration. Patent No 7973095 US. 2006; MKP C08F 2/48; C08F 2/04; C08F 2/16; C08F 220/56
  19. Kuznetsov V. A., Lavlinskaya M. S., Ostankova I. V., Selemenev V. F., Semenov V. N., Lukin A. A. Water sorption ability of rare cross-linked polymeric material with superabsorbent properties. Sorbtsionnye i Khromatograficheskie Protsessy. 2017;17(3); p. 484-489. DOI: https://doi.org/10.17308/sorpchrom.2017.17/404 (In Russ., abstract in )
  20. Slavinskaya G. V., Selemenev V. F. Ful'vokisloty prirodnykh vod [Fulvic acids of natural waters]. Voronezh: Voronezh State University; 2001. 165 p. (In Russ.)
  21. Selemenev V. F., Rudakov O. B., Slavinskaya G. V., Drozdova N. V. Pigmenty pishchevykh proizvodstv (melanoidiny) [Food production pigments (melanoidins)]. Moscow: Da Li print Publ.; 2008. 246 p. (In Russ.)
  22. Selemenev V. F. Chekin G. A., Khokhlov V. Yu. Interionic and intermolecular interactions in ion-exchange and sorption systems involving physiologically active substances. In: Ion-exchange. New York: Marsel Dekker; 2000(1). p. 851 – 925. DOI: https://doi.org/10.1201/9780203908341.ch10

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Author Biographies

Anna V. Zenishcheva, Voronezh State University, 1 Universitetskaya pl., Voronezh 394018, Russian Federation

graduate student of the Department of General and Inorganic Chemistry, Voronezh State University, Voronezh, Russian Federation; e-mail: anvitz@mail.ru

Victor. N. Semenov, Voronezh State University, 1 Universitetskaya pl., Voronezh 394018, Russian Federation

DSc in Chemistry, Full Professor, Head of the Department of General and Inorganic Chemistry, Voronezh State University, Voronezh, Russian Federation; e-mail: semenov@chem.vsu.ru.

Vyacheslav. A. Kuznetsov,, Voronezh State University, 1 Universitetskaya pl., Voronezh 394018, Russian Federation

DSc in Chemistry, Professor, Department of High-Molecular Compounds and Colloid Chemistry, Voronezh State University, Voronezh, Russian Federation e-mail: dr.v.kuznetsov@gmail.com.

Petr O. Kuschev, Voronezh State University, 1 Universitetskaya pl., Voronezh 394018, Russian Federation

PhD in Chemistry, Lecturer at the Department of High-Molecular Compounds and Colloid Chemistry, Voronezh State University, Voronezh, Russian Federation e-mail: peter.kuschev@gmail.com.

Published
2020-03-20
How to Cite
Zenishcheva, A. V., Semenov, V. N., Kuznetsov, V. A., & Kuschev, P. O. (2020). Synthesis and Hydration Properties of the Superabsorbent “Solid water”. Kondensirovannye Sredy I Mezhfaznye Granitsy = Condensed Matter and Interphases, 22(1). https://doi.org/10.17308/kcmf.2020.22/2530
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