Access to Optimal Calcination Temperature for Nanoparticle Synthesis from Hydroxyapatite Bovine Femur Bone Waste

Hammood, Ali Sabea; Hassan, Sora Salem; Alkhafagy, Mohammed Talib

doi:10.5101/nbe.v9i3.p228-235

Cited by 7 publications

(6 citation statements)

References 18 publications

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“…Here, the interpretation done by different authors is referred as that the FWHM decreases due to an increase of the crystalline quality of the sample, but the incineration process produces a coalescence phenomenon that originates the growth of the crystal and the X-ray diffraction instead inelastic scattering governs this kind of patterns 6 . It can be interpreted as follows: first, the raw crystals improved their crystalline quality or due to the heating process the raw samples suffer a coalescence prosses increasing the crystal size from nano to micro, but it cannot be interpreted saying that the crystalline quality of the sample increases as is commonly reported 9,13,33,34 .…”

Section: Resultsmentioning

confidence: 99%

Effect of the Nano Crystal Size on the X-ray Diffraction Patterns of Biogenic Hydroxyapatite from Human, Bovine, and Porcine Bones

Londoño‐Restrepo

Jeronimo‐Cruz

Millán-Malo

et al. 2019

Sci Rep

196

101

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This paper focuses on the study of the effect of the change of the crystal size on the shape and width of the X-ray diffraction patterns for defatted and deproteinized bones as well as incinerated biogenic hydroxyapatite obtained from bovine, porcine, and human bones. Inductively Couple Plasma showed the presence of some ions such as Mg, K, Al, Fe, Zn, and Na for all samples. The nanometric size of the crystals was determined through High Resolution Transmission Electron Microscopy in which ordered crystals were found. The calcination of raw clean bones at 720 °C produced a transition of crystal size from nano to micro due to a coalescence phenomenon, this was accompanied by a decrease of the peak width of the X-ray diffraction patterns due to the decrease of the inelastic scattering contribution from the microcrystals. A simulation of the effect of the crystallite size on the shape and width of the X-ray patterns was done using PDF-4 software which confirmed that raw ordered bone crystals produce broad peaks which so far have been erroneously assigned to polycrystalline hydroxyapatite with low crystalline quality.

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Section: Resultsmentioning

confidence: 99%

Effect of the Nano Crystal Size on the X-ray Diffraction Patterns of Biogenic Hydroxyapatite from Human, Bovine, and Porcine Bones

Londoño‐Restrepo

Jeronimo‐Cruz

Millán-Malo

et al. 2019

Sci Rep

196

101

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“…Jaber et al [11] utilized the camelus bone to synthesize HAp powders, and the results present that powders obtained at calcining temperature (1000 °C) were a pure hydroxyapatite with the Ca/P ratio of 1.6557. Hammood et al [12] used the bovine femur bone to synthesize natural hydroxyapatite, and the results show the optimal calcination temperature to obtain near to pure hydroxyapatite at 900 °C. Hammood et al [13] studied the comparison of nano-synthetically produced and natural HAp powder, and the results present that, the biowaste materials which calcined at 950 °C could produce micro-hydroxyapatite that was nearly like the commercial nano-hydroxyapatite.…”

Section: Introductionmentioning

confidence: 99%

Effect of calcination temperature on characterization of natural hydroxyapatite prepared from carp fish bones

et al. 2019

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Hydroxyapatite is one of the most common bio-ceramic materials which is currently used in the biomedical field. The development of hydroxyapatite is due to their crystallographic and chemical similarity to the hard tissue of human body. The present study aims to prepare hydroxyapatite from a bio-waste material (carp fish bone) as an ecofriendly and inexpensive source by calcination treatment. The calcination process was applied at various calcining temperatures; the heating rate was kept constant at 10 °C min −1. FTIR results proved the formation of hydroxyapatite at 950 °C due to the founding peaks corresponding to phosphate (632 cm −1) and hydroxyl (3572 cm −1). XRD analysis confirmed the formation of HAp at 950 °C by the presence three main peaks: (211), (112), and (300), which correspond to the characteristic peaks of hydroxyapatite. Raman analyses which displayed the calcining process remove organic components from a bones matrix. AFM showed that the size of particles is ranged between nano and microns. EDS analysis found that the Ca/P reaches 1.6589 for fish bone after calcination at 950 °C, which is close to stoichiometric HAp (1.67).

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“…Table 1 shows biological, mechanical, and physiochemical, properties of HAp [5]. HAp can be produced in two methods including chemical methods [6] [7] and natural resources [8] [9]. HAp typically synthesized from the chemical methods presents some drawbacks: they are having cytotoxicity [10], hazardous chemicals [11] and relatively high cost [4].…”

Section: Introductionmentioning

confidence: 99%

Preparation and synthesis of hydroxyapatite bio-ceramic from bovine bone by thermal heat treatment

Jaber¹,

Kovács²

2019

Epitoanyag - JSBCM

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Calcium phosphate, particularly hydroxyapatite (HAp) is an important material in biomedical engineering applications. The development of HAp is continued rising due to the similarity and biomimetic requirements to the hard tissue of human body such as bone and dental. The purpose of our work was to produce and describe HAp bioceramic powder from environmental and cheap source (Bovine bone) by thermal process at various calcination temperatures. The analysis of Fourier transform infrared spectroscopy (FTIR) verified the formation of HAp because of the existence peaks related to phosphate and hydroxyl groups. The analysis of Raman confirmed findings of the FTIR the formation of HAp due to the appearance of peaks at 960 and 920 cm −1 related to a phosphate group. A result of Energy-dispersive X-ray spectrometry (EDS) also referred to Ca/P atomic ratio at 1000 °C was 1.6 that has been near stoichiometric hydroxyapatite (1.67) in human body.

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Access to Optimal Calcination Temperature for Nanoparticle Synthesis from Hydroxyapatite Bovine Femur Bone Waste

Cited by 7 publications

References 18 publications

Effect of the Nano Crystal Size on the X-ray Diffraction Patterns of Biogenic Hydroxyapatite from Human, Bovine, and Porcine Bones

Effect of the Nano Crystal Size on the X-ray Diffraction Patterns of Biogenic Hydroxyapatite from Human, Bovine, and Porcine Bones

Effect of calcination temperature on characterization of natural hydroxyapatite prepared from carp fish bones

Preparation and synthesis of hydroxyapatite bio-ceramic from bovine bone by thermal heat treatment

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