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A Hybrid Approach for In-Situ Synthesis of Bioceramic Nanocomposites to Adjust the Physicochemical and Biological Characteristics Publisher



Askari E1, 2 ; Khoshghadampireyousefan M1 ; Naghib SM1 ; Akbari H3 ; Khosravani B4 ; Zali A5 ; Salehi Z5 ; Zare Y2 ; Rhee KY6
Authors
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Authors Affiliations
  1. 1. Nanotechnology Department, School of Advanced Technologies, Iran University of Science and Technology (IUST), Tehran, P.O. Box 16846-13114, Iran
  2. 2. Biomaterials and Tissue Engineering Research Group, Department of Interdisciplinary Technologies, Breast Cancer Research Center, Motamed Cancer Institute, ACECR, Tehran, Iran
  3. 3. School of Chemical Engineering, College of Engineering, University of Tehran, Tehran, Iran
  4. 4. School of Chemical, Petroleum and Gas Engineering, Iran University of Science and Technology (IUST), Narmak, Tehran, Iran
  5. 5. School of Metallurgy and Material Engineering, Faculty of Engineering, University of Tehran, Tehran, Iran
  6. 6. Department of Mechanical Engineering (BK21 Four), College of Engineering, Kyung Hee University, Yongin, South Korea

Source: Journal of Materials Research and Technology Published:2021


Abstract

In this article, a hybrid method comprising a sol–gel process and mechanical activation (MA) for the synthesis of bioceramic-based nanocomposites is proposed. The method was used to synthesize model akermanite (AKM)–monticellite (MNT) nanocomposites with high purity. The STA and XRD results confirm the successful formation of AKM–MNT bio-nanocomposite at a very low calcination temperature. Moreover, the STA results illustrate that the calcination initiation temperature of the synthesized nanoceramics decreased from 830 to 700 °C owing to MA, and the weight fraction of MNT increased with increasing MA duration. The crystallite sizes of AKM and MNT increased to values below 60 and 50 nm with increasing calcination temperature, respectively. Although the lattice constants of the produced AKM and MNT decreased with increasing MA duration, the values were very close to those of the reference codes. Furthermore, the samples were investigated with FESEM and TEM; according to the results, the longer MA process resulted in samples with finer particles. The biocompatibility of the synthesized nanocomposites was corroborated with an MTT assay; the nanocomposite extract with different dilution ratios had a crucial effect on the proliferation rate of human umbilical vein endothelial cells (HUVECs). Overall, the results show that the proposed hybrid method is suitable for the synthesis and fabrication of nanocomposites. © 2021 The Author(s)
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