Article: Hydrothermal synthesis of coccolith rich chalk to hydroxyapatite Journal: International Journal of Nano and Biomaterials (IJNBM) 2012 Vol.4 No.2 pp.81 - 95 Abstract: Calcium carbonates originating from marine sources show unique pore structure and nano-architecture, offering potential in the field of hard tissue engineering. It is hypothesised that the use of naturally-sourced raw materials for the synthesis of hydroxyapatite (HA), as a component of a hard tissue constructs, enables enhanced bone remodelling due to the biomimetic physical-chemical characteristics of the HA. The aim of this study was to convert coccolith rich chalk to HA with the potential application of aiding bone tissue regeneration. This was attained by using a hydrothermal technique at an ambient pressure and low temperature 100°C in an alkaline environment. The chalk was characterised using ICP, TGA, XRD and SEM to determine the physiochemical properties both pre-and post-synthesis. The results confirmed a high rate of conversion to HA at 93.7%. In addition the synthesised HA preserved the unique structure of the coccoliths which could be beneficial in bone repair applications. Inderscience Publishers - linking academia, business and industry through research

Title: Hydrothermal synthesis of coccolith rich chalk to hydroxyapatite

Authors: Kathryn Fee; Gavin M. Walker; Nicholas J. Dunne; Fraser J. Buchanan

Addresses: School of Mechanical and Aerospace Engineering, Queen's University of Belfast, Ashby Building, 125 Stranmillis Road, Belfast, Northern Ireland, BT9 5AH, UK. ' Materials Surface Science Institute, Department of Chemistry and Environmental Science, Plassey Park, University of Limerick, Limerick, Ireland. ' School of Mechanical and Aerospace Engineering, Queen's University of Belfast, Ashby Building, 125 Stranmillis Road, Belfast, Northern Ireland, BT9 5AH, UK. ' School of Mechanical and Aerospace Engineering, Queen's University of Belfast, Ashby Building, 125 Stranmillis Road, Belfast, Northern Ireland, BT9 5AH, UK

Abstract: Calcium carbonates originating from marine sources show unique pore structure and nano-architecture, offering potential in the field of hard tissue engineering. It is hypothesised that the use of naturally-sourced raw materials for the synthesis of hydroxyapatite (HA), as a component of a hard tissue constructs, enables enhanced bone remodelling due to the biomimetic physical-chemical characteristics of the HA. The aim of this study was to convert coccolith rich chalk to HA with the potential application of aiding bone tissue regeneration. This was attained by using a hydrothermal technique at an ambient pressure and low temperature 100°C in an alkaline environment. The chalk was characterised using ICP, TGA, XRD and SEM to determine the physiochemical properties both pre-and post-synthesis. The results confirmed a high rate of conversion to HA at 93.7%. In addition the synthesised HA preserved the unique structure of the coccoliths which could be beneficial in bone repair applications.

Keywords: bone tissue engineering; chalk; coccoliths; Emiliania huxleyi; hydrothermal synthesis; hydroxyapatite; biomaterials; calcium carbonate; bone remodelling; biomimetics; bone tissue regeneration; bone regeneration; bone repair.

DOI: 10.1504/IJNBM.2012.050309

International Journal of Nano and Biomaterials, 2012 Vol.4 No.2, pp.81 - 95

Received: 21 Nov 2011
Accepted: 05 Aug 2012
Published online: 30 Sep 2014 *

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Title: Hydrothermal synthesis of coccolith rich chalk to hydroxyapatite

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