Gabriel KATONA, László BARABÁS, Réka BARABÁS, Oana CADAR, Gabriel BATIN, Dennis DEEMTER, Liliana BIZO

Comparative study on physicochemical and mechanical characterization of new nanocarbon-based hydroxyapatite nanocomposites

This study evaluated the effect of different additives such as nanocarbon compounds (0.5, 1.0, and 2.0wt.%) with different morphologies and gelatin (Gel) (10 wt.%) on the mechanical properties of hydroxyapatite (Hap)- based nanocomposites (NCs). The NCs were prepared using the innovation process “SmartBox” based on the Internet of things (IoT), which provides process control and reproducibility, and they were characterized by X-ray diffraction, particle size distribution, transmission electron microscopy, Fourier transform infrared spectroscopy, and thermal analysis. The compressive strength tests demonstrated that the use of grapheme oxide (Hap_GO_2.0 - 133 N/mm2 ), and/or Gel (Hap_Gel - 152 N/mm2 ) as additives to reinforce Hap (106 N/mm2 ) is more appropriate than the use of single functionalized multiwalled carbon nanotubes (Hap_fMWCNT_1.0 - 110 N/mm2 ) and fullerene (Hap_Ful_0.5 - 106 N/mm2).

PDF

___

1. Zhou, H.; Lee J. Acta Biomater. 2011, 7, 2769-2781.
2. Radha, G.; Venkatesan, B.; Vellaichamy, A; Balakumar S. Ceram. Int. 2018, 44, 8777-8787.
3. Ong, Y. T.; Ahmad, A. L.; Zein, S.H.S.; Tan, S. H. Brazil. J. Chem. Engineer. 2010, 27, 227-242.
4. White, A. A.; Best, S. M.; Kinloch, I. A. Int. J. Appl. Ceram. Tec. 2007, 4, 1-13.
5. Chen, Y.; Zhang, T. H., Gan, C. H.; Yu, G. Carbon 2007, 45, 998-1004.
6. Costanda, S.; Stan, M. S.; Ciobanu, C. S.; Motelica-Heino, M.; Guegan, R.; Lafdi, K.; Dinischiotu, A.; Predoi, A. J. Nanomater. 2016, Article ID 3941501, 10 pages.
7. Lahiri, D.; Singh, V., Keshri, A. K.; Seal, S. Agarwal A., Carbon 2010, 48, 3103-3120.
8. Fang, L.; Leng, Y.; Gao P. Biomaterials 2006, 27, 3701-3707.
9. Ramires, P.; Romito, A.; Cosentino, F.; Milella, E. Biomaterials 2001, 22, 1467-1474.
10. Abden, M. J.; Afroze, J. D.; Alam, M. S.; Bahadur, N. M. Mater. Sci. Eng. C - Mater. 2016, 67, 418-424.
11. Bhattacharya, K.; Mukherjee, S. P.; Gallud, A.; Buckert, S.C.; Bistarelli, S.; Belucci, S.; Bottini, M.; Star, A.; Fadeel B. Nanomed. Nanotechnol. 2016, 12, 333-351.
12. Zhao, X.; Chen, X.; Zhang, L.; Liu, Q.; Wang, Y.; Zhang, W.; Zheng, J. Coatings 2018, 8, 357-369.
13. Mukherjeea, S.; Kundub, B.; Senc, S; Chandad, A. Ceram. Int. 2014, 40, 5635-5643.
14. Le, H.; Natesan, K.; Pranti-Haran, S.; J. Adv. Cer. 2015, 4, 237-243.
15. Chao, S. C.; Wang, M. J.; Pai, N. S.; Yen, S. K., Mat. Sci. Eng. C-Mater. 2015, 57, 113-122.
16. Pek, Y. S.; Gao, S.; Arshad, M. S. M.; Leck, K. J.; Ying, J. Y. Biomaterials 2008, 29, 4300-4305.
17. Yanovska, ff.; Kuznetsov, V.; Stanislavov, A.; Husak, ff.; Pogorielov, ff.; Starikov, V.; Bolshanina, S.; Danilchenko, S. Mater. Chem. Phys. 2016, 183, 93-100.
18. Gil, D.; Ferrandez, A.; Mora-Mora, H.; Peral, J. Sensors (Basel) 2016, 16, 1069-1092.
19. Ley, S. V.; Fitzpatrick, D. E.; Ingham, R. J.; Nikbin, N. Beilstein Magazine 2015, 1, No. 2.
20. Ding, D.; Yu T.; Zhang, W.; Liu, W.; Huang, Y. J. Nanomater. 2015, Article ID 628405, 6 pages.
21. Li, H.; Song, X.; Li, B.; Kang, J.; Liang, C.; Wang, H.; Yu, Z.; Qiao Z. Mat. Sci. Eng. C - Mater. 2017, 77, 1078-1087.
22. Barabas, R.; Cziko, M.; Dekany, I.; Bizo, L.; Bogya, E. S. Chem. Pap. 2013, 67, 1414-1423.
23. Rezakhani, A.; Kashani Motlagh, M. M. Int. J. Phys. Sci. 2012, 7, 2768-2774.
24. Yadav, S. K.; Bera, T.; Saxena, P. S.; Maurya, A. K.; Garbyal, R. S.; Vajtai, R; Ramachandrarao, P.; Srivastava, A. J. Biomed. Mater. Res. A 2010, 93, 886-924.
25. Mukherjee, S.; Kundu, B.; Chanda, A.; Sen S. Ceram. Int. 2015, 41, 3766-3774.
26. Stuart, B. H. Infrared Spectroscopy: Fundamentals and Applications; Wiley: Hoboken, NJ, USA, 2004.
27. Berzina-Cimdina L.; Borodajenko N. In: Infrared Spectroscopy - Materials Science, Engineering and Technology; Theophanides, T., editor. InTech: Rijeka, Croatia, 2012.
28. Chuaynukul, K.; Prodpran, T.; Benjakul S. Res. J. Chem. Environ. 2014, 2, 1-9.
29. Barabas, R.; Katona, G.; Bogya, E. S.; Diudea, M. V.; Szentes, A.; Zsirke, B.; Kovacs, J.; Kekedy-Nagy, L.; Cziko, M. Ceram. Int. 2015, 41, 12717-12727.
30. Mahajan, A.; Kingon, A.; Kukovecz, A.; Konya, Z.; Vilarinho, P. M. Mater. Lett. 2013, 90, 165-168.
31. Bom, D.; Andrews, R.; Jacques, D; Anthony, J.; Chan, B.; Meier, M. S.; Selegue, J. P. Nano Lett. 2002, 2, 615-619.
32. Nali, N.; Chipara, D.; Lozano, K.; Hinthorne, J. Chipara M. Appl. Surf. Sci. 2017, 421, 220-227.
33. Najafi, F.; Rajabi, M. Int. Nano Lett. 2015, 5, 187-190.
34. Kothapallia, C.; Wei, M.; Vasilieva, A.; Shaw, M. T. Acta Mater. 2004, 52, 5655-5663.
35. Hutmacher, D. W.; Schantz, J. T.; Lam, C. X. F.; Tan, K. C.; Lim, T. C. J. Tissue Eng. Regen. Med. 2007, 1, 245-260.
36. Barabas, R.; Rigo, M.; Ebiszne-Bodogh, M.; Moisa, C.; Cadar, O. Stud. U. Babes-Bol. Che. 2018, 3, 137-154.
37. Dong, X. H.; Hong, X. T.; Chen, F.; Sang, B. R.; Yu, W.; Zhang, X. P. Mater. Des. 2014, 64, 400-406.
38. Li, Y; Liu, C.; Zhjai, H.; Zhu, G.; Pan, H.; Xu, X.; Tang, R. RSC Adv. 2014, 4, 25398-25403.
39. Shin, S. R.; Li, Y. C.; Jang, H. L.; Khoshakhlagh, P.; Akbari, M.; Nasajpour, A.; Zhang, Y. S.; Tamayol, A.; Khademhosseini, A. Adv. Drug Deliv. 2016, 105, 255-274.
40. Hannora, A. E.; Ataya, S. J. Alloy. Compd. 2016, 658, 222-233.
41. Dejeu, V. R.; Barabas, R.; Cormos, A. M.; Sara, B. E.; Agachi P. S. Stud. U. Babes-Bol. Che. 2010, 45, 363-373.
42. Vahedi, A. F.; Shahverdi, H. R.; Shokrieh, M. M.; Esmkhani, M. New Carbon Mater. 2014, 29, 419-425.
43. Khan, I.; Saeed, K.; Khan, I. Arab. J. Chem. 2017, in press.
44. Ramakrishna Matte, H. S. S.; Subrahmanyam, K. S.; Rao, C. N. R. Nanomater. Nanotechnol. 2011, 1, 3-13.