The development of a novel biocomposite of apatite (Ap) and collagen incorporating low-level additions of silicon (Si) as an osseopromotive agent is detailed. Designed to mimic the structural and compositional characteristics of developing bone, this composite is produced via a coprecipitation method, through which the weight percentage of Ap (i.e., the Ap/collagen ratio) can be varied. Coprecipitates produced at Ap contents of 80 wt % (Ap/collagen=4:1), 60 wt % (Ap/collagen=3:2), and 40 wt % (Ap/collagen=2:3) Ap showed markedly different morphologies, ranging from ceramic-like particulates to rope-like macro-fibrils; at all three Ap contents, however, the nanostructural features of the composites remained qualitatively indistinguishable, with equiaxed Ap nanocrystals distributed randomly throughout a matrix of amorphous collagen. Si incorporation was observed to occur preferentially in the collagenous phase-a result with potential impact on local controlled release of Si.
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