Hybrid Adsorbent Based on Zeolite NaX Modified with Hyperbranched Polyester Poly(N-benzoylthiocarbamate)

Aleksei Maksimov; Alina Vagapova; Marianna Kutyreva; Gennadiy Kutyrev

Macromolecular Research, Vol.30, No.1, 26-35, January, 2022

DOI10.1007/s13233-022-0002-3 Export Citation

Hybrid Adsorbent Based on Zeolite NaX Modified with Hyperbranched Polyester Poly(N-benzoylthiocarbamate)

Aleksei Maksimov^†, Alina Vagapova, Marianna Kutyreva¹, and Gennadiy Kutyrev

Kazan National Research Technological University, 420015, Kazan, st. K. Marx, 68, Russia, Russian Federation
¹Kazan Federal University, 420008, Kazan, st. Kremlin, 18, Russia, Russian Federation

E-mail:

A new hybrid adsorbent has been synthesized by covalent linking of activated zeolite with hyperbranched polyester containing 8 terminal N-benzoylthiocarbamate groups. The structure of the polymer ligand was defined by IR, 1H and 13C NMR spectroscopy. The complexing properties of the adsorbent have been studied using the example of complexes with Cu(II) and Co(II) ions. It was proved by IR spectroscopy that N-benzoylthiocarbamate and toluylenecarbamate groups participate in complexation with metal ions. According to electron microscopy and porometry data, the average particle diameter of the adsorbent is 34.56 μm and the mesopore diameter is 4.19 nm. Differential scanning calorimetry (DSC) and thermogravimetric analysis (TGA) have shown that the hybrid adsorbent is thermally stable up to 150 °C. The sorption capacities of the adsorbent for Cu(II) and Co(II) ions are 31.92 and 17.7 g/kg. It was shown that the desorption process of metal ions from the complexes occurs in an acidic medium at pH 4 with the regeneration of the original adsorbent.

Keywords:hybrid adsorbent;hyperbranched polyester;metal complexes;zeolite

[References]

Jeon IY, Noh HJ, Baek JB, Molecules, 23, 657 (2018)
Bhat SI, Ahmadi Y, Ahmad S, Ind. Eng. Chem. Res., 57(32), 10754 (2018)
Jena KK, Raju KVSN, Prathab B, Aminabhavi TM, J. Phys. Chem. B, 111(30), 8801 (2007)
Zagar E, Zigon M, Prog. Polym. Sci, 36, 53 (2011)
Kutyrev GA, Maksimov AF, Ernandes AMP, Idiyatov II, Valiullin LR, Gallyamova SR, Biryulya VV, Gataulina AR, Kutyreva MP, Bull Kazan Technol. Univ., 20, 16 (2017)
Gataulina AR, Kutyreva MP, Kutyrev GA, Maksimov AF, Ernandes AMP, Russ. J. Gen. Chem., 88, 2300 (2018)
Kutyreva MP, Usmanova GS, Ulakhovich NA, Medvedeva OI, Syakaev VV, Ziganshina SA, Kutyrev GA, Polym. Sci. Ser. B, 55, 201 (2013)
Murillo EA, Ceron M, Percino MJ, Macromol. Res., 29(4), 257 (2021)
Gataulina AR, Khasanova EM, Basalaev AS, Ulakhovich NA, Kutyreva MP, Kutyrev GA, Yurtaeva SV, Russ. J. Gen. Chem., 87, 1995 (2017)
Klimenko NS, Shevchuk AV, Vortman MY, Privalko EG, Shevchenko VV, Polym. Sci. Ser. A, 50, 160 (2008)
Marquez H, Loupy A, Calderon O, Perez ER, Tetrahedron, 62, 2616 (2006)
Channar PA, Saeed A, Larik FA, Florke U, El-Seedi H, Pirani LSR, Erben MF, New J. Chem., 44, 5243 (2020)
Zhang J, Watada K, Sauber ME, Azimi G, Rare Metal Technology 2020, Springer, 2020.
Kane S, Lazo P, Ylli F, Stafilov T, Qarri F, Marku E, J. Environ. Sci. Heal. A, 51, 335 (2016)
Kutyrev GA, Maksimov AF, Ernandes AMP, Kutyreva MP, Gataulina AR, Bull. Kazan Technol. Univ., 21, 69 (2018)
Kutyreva MP, Gataulina AR, Maksimov AF, Ernandes AMP, Zhukova AA, Kutyrev GA, Russ. J. Gen. Chem., 90, 268 (2020)
Kutyrev GA, Busygina AA, Akhmadulina EN, Rakhmadullina LR, Kutyreva MP, Gataulina AR, Bull. Kazan Technol. Univ., 19, 15 (2016)
Zhao G, Peng J, Zhong H, Wang S, Liu G, Minerals, 6, 97 (2016)
Hyder MKMZ, Ochiai B, Chem. Lett., 46(4), 492 (2017)
Arslan H, Duran N, Borekci G, Ozer CK, Akbay C, Molecules, 14, 519 (2009)
Vallejos ST, Erben MF, Piro OE, Castellano EE, Vedova COD, Polyhedron, 28, 937 (2009)
Oborina EN, Vlasova NN, Prot. Met. Phys. Chem. Surfaces, 54, 594 (2018)
Turanov AN, Karandashev VK, Bondarenko NA, Russ. J. Inorg. Chem., 63, 128 (2018)
Terrab I, Boukoussa B, Hamacha R, Bouchiba N, Roy R, Bengueddach A, Azzouz A, Thermochim. Acta, 624, 95 (2016)
Belviso C, SPi global, Rijieka, 2016.
Bolis V, Barbaglia A, Bordiga S, Lamberti C, Zecchina A, J. Phys. Chem. B, 108(28), 9970 (2004)
Shigapov MY, Gataulina AR, Gerasimov AV, Ulakhovich NA, Kutyreva MP, Inorg. Mater. Appl. Res., 9, 243 (2018)
Lee DG, KSCE J. Civ. Eng., 19, 2024 (2015)
Jincheng W, Xiaoyu Z, Yuehui C, Polym. Polym. Compos., 18, 283 (2010)
Patel BK, Dahiya A, Ali W, Alam T, Org. Biomol. Chem., 16, 7787 (2018)
Song W, Shi T, Yang D, Ye J, Zhou Y, Feng Y, J. Environ. Manage., 162, 96 (2015)
Pomazkina OI, Filatova EG, Pozhidaev YN, Prot. Met. Phys. Chem. Surfaces, 50, 312 (2014)
Sverguzova SV, Hunadi L, Galimova RZ, Bull. Technol. Univ., 23, 63 (2020)
Audin F, ARslan NB, Aslan K, J. Mol. Struct., 1203, 127414 (2019)
Mandal A, Dutta TK, Gupta RL, Indian J. Chem. B, 54B, 228 (2015)
Marquez H, Loupy A, Calderonc O, Perez ER, Tetrahedron, 62, 2616 (2006)
Moustafa HY, Younis MA, Azab MM, Khalil MI, BFSZU, 39, 149 (2017)
Vallejos ST, Erben MF, Piro OE, Castellano EE, Vedova COD, Polyhedron, 28, 937 (2009)
Channar PA, Saeed A, Larik FA, Florke U, El-Seedi H, Pirani LSR, Erben MF, New J. Chem., 44, 5243 (2020)
Pulatov EK, Isobaev MD, Mavlonov BG, Abdullaev TK, RUCB, 67, 1106 (2018)
Fleming I, Williams D, Spectroscopic Methods in Organic Chemistry, Springer, Cham, 2020.
Oladoja NA, Unuabonah EI, Progress and Prospects in the Management of Oxyanion Polluted Aqua Systems, Springer, Cham, 2021.
Kurt Y, Deniz NG, J. Coord. Chem., 68, 4070 (2015)
Ye H, Zhang X, Zhao Z, Song B, Zhang Z, Song W, Iran. Polym. J., 26, 193 (2017)
Wen CY, Wang CG, Chen LG, Zhang XH, Liu QY, Ma LL, Fuel, 244, 492 (2019)
Su LL, Liu L, Zhuang JQ, Wang HX, Li YG, Shen WJ, Xu YD, Bao XH, Catal. Lett., 91(3-4), 155 (2003)
Galimova RZ, Shaikhiev IG, Sverguzova SV, BSTU named after Shukhov VG, Kazan-Belgorod, 2017.

[1] Jeon IY, Noh HJ, Baek JB, Molecules, 23, 657 (2018)

[2] Bhat SI, Ahmadi Y, Ahmad S, Ind. Eng. Chem. Res., 57(32), 10754 (2018)

[3] Jena KK, Raju KVSN, Prathab B, Aminabhavi TM, J. Phys. Chem. B, 111(30), 8801 (2007)

[4] Zagar E, Zigon M, Prog. Polym. Sci, 36, 53 (2011)

[5] Kutyrev GA, Maksimov AF, Ernandes AMP, Idiyatov II, Valiullin LR, Gallyamova SR, Biryulya VV, Gataulina AR, Kutyreva MP, Bull Kazan Technol. Univ., 20, 16 (2017)

[6] Gataulina AR, Kutyreva MP, Kutyrev GA, Maksimov AF, Ernandes AMP, Russ. J. Gen. Chem., 88, 2300 (2018)

[7] Kutyreva MP, Usmanova GS, Ulakhovich NA, Medvedeva OI, Syakaev VV, Ziganshina SA, Kutyrev GA, Polym. Sci. Ser. B, 55, 201 (2013)

[8] Murillo EA, Ceron M, Percino MJ, Macromol. Res., 29(4), 257 (2021)

[9] Gataulina AR, Khasanova EM, Basalaev AS, Ulakhovich NA, Kutyreva MP, Kutyrev GA, Yurtaeva SV, Russ. J. Gen. Chem., 87, 1995 (2017)

[10] Klimenko NS, Shevchuk AV, Vortman MY, Privalko EG, Shevchenko VV, Polym. Sci. Ser. A, 50, 160 (2008)

[11] Marquez H, Loupy A, Calderon O, Perez ER, Tetrahedron, 62, 2616 (2006)

[12] Channar PA, Saeed A, Larik FA, Florke U, El-Seedi H, Pirani LSR, Erben MF, New J. Chem., 44, 5243 (2020)

[13] Zhang J, Watada K, Sauber ME, Azimi G, Rare Metal Technology 2020, Springer, 2020.

[14] Kane S, Lazo P, Ylli F, Stafilov T, Qarri F, Marku E, J. Environ. Sci. Heal. A, 51, 335 (2016)

[15] Kutyrev GA, Maksimov AF, Ernandes AMP, Kutyreva MP, Gataulina AR, Bull. Kazan Technol. Univ., 21, 69 (2018)

[16] Kutyreva MP, Gataulina AR, Maksimov AF, Ernandes AMP, Zhukova AA, Kutyrev GA, Russ. J. Gen. Chem., 90, 268 (2020)

[17] Kutyrev GA, Busygina AA, Akhmadulina EN, Rakhmadullina LR, Kutyreva MP, Gataulina AR, Bull. Kazan Technol. Univ., 19, 15 (2016)

[18] Zhao G, Peng J, Zhong H, Wang S, Liu G, Minerals, 6, 97 (2016)

[19] Hyder MKMZ, Ochiai B, Chem. Lett., 46(4), 492 (2017)

[20] Arslan H, Duran N, Borekci G, Ozer CK, Akbay C, Molecules, 14, 519 (2009)

[21] Vallejos ST, Erben MF, Piro OE, Castellano EE, Vedova COD, Polyhedron, 28, 937 (2009)

[22] Oborina EN, Vlasova NN, Prot. Met. Phys. Chem. Surfaces, 54, 594 (2018)

[23] Turanov AN, Karandashev VK, Bondarenko NA, Russ. J. Inorg. Chem., 63, 128 (2018)

[24] Terrab I, Boukoussa B, Hamacha R, Bouchiba N, Roy R, Bengueddach A, Azzouz A, Thermochim. Acta, 624, 95 (2016)

[25] Belviso C, SPi global, Rijieka, 2016.

[26] Bolis V, Barbaglia A, Bordiga S, Lamberti C, Zecchina A, J. Phys. Chem. B, 108(28), 9970 (2004)

[27] Shigapov MY, Gataulina AR, Gerasimov AV, Ulakhovich NA, Kutyreva MP, Inorg. Mater. Appl. Res., 9, 243 (2018)

[28] Lee DG, KSCE J. Civ. Eng., 19, 2024 (2015)

[29] Jincheng W, Xiaoyu Z, Yuehui C, Polym. Polym. Compos., 18, 283 (2010)

[30] Patel BK, Dahiya A, Ali W, Alam T, Org. Biomol. Chem., 16, 7787 (2018)

[31] Song W, Shi T, Yang D, Ye J, Zhou Y, Feng Y, J. Environ. Manage., 162, 96 (2015)

[32] Pomazkina OI, Filatova EG, Pozhidaev YN, Prot. Met. Phys. Chem. Surfaces, 50, 312 (2014)

[33] Sverguzova SV, Hunadi L, Galimova RZ, Bull. Technol. Univ., 23, 63 (2020)

[34] Audin F, ARslan NB, Aslan K, J. Mol. Struct., 1203, 127414 (2019)

[35] Mandal A, Dutta TK, Gupta RL, Indian J. Chem. B, 54B, 228 (2015)

[36] Marquez H, Loupy A, Calderonc O, Perez ER, Tetrahedron, 62, 2616 (2006)

[37] Moustafa HY, Younis MA, Azab MM, Khalil MI, BFSZU, 39, 149 (2017)

[38] Vallejos ST, Erben MF, Piro OE, Castellano EE, Vedova COD, Polyhedron, 28, 937 (2009)

[39] Channar PA, Saeed A, Larik FA, Florke U, El-Seedi H, Pirani LSR, Erben MF, New J. Chem., 44, 5243 (2020)

[40] Pulatov EK, Isobaev MD, Mavlonov BG, Abdullaev TK, RUCB, 67, 1106 (2018)

[41] Fleming I, Williams D, Spectroscopic Methods in Organic Chemistry, Springer, Cham, 2020.

[42] Oladoja NA, Unuabonah EI, Progress and Prospects in the Management of Oxyanion Polluted Aqua Systems, Springer, Cham, 2021.

[43] Kurt Y, Deniz NG, J. Coord. Chem., 68, 4070 (2015)

[44] Ye H, Zhang X, Zhao Z, Song B, Zhang Z, Song W, Iran. Polym. J., 26, 193 (2017)

[45] Wen CY, Wang CG, Chen LG, Zhang XH, Liu QY, Ma LL, Fuel, 244, 492 (2019)

[46] Su LL, Liu L, Zhuang JQ, Wang HX, Li YG, Shen WJ, Xu YD, Bao XH, Catal. Lett., 91(3-4), 155 (2003)

[47] Galimova RZ, Shaikhiev IG, Sverguzova SV, BSTU named after Shukhov VG, Kazan-Belgorod, 2017.