![]() ![]() This is particularly of concern when we wish to bridge between technologies in vitro and biotechnologies in vivo. From our perspective, the superficial accounting of material properties, chemistry of the surfaces, and the behavior of biomolecules next to such surfaces is a problem. Practically, we need an effective defragmentation of the research area. Would such materials deliver new technologies? Answering this question requires the merging of historical knowledge and current research from different fields of science. Besides traditional approaches, the synthesis, shaping, structural patterning, and postprocessing chemical functionalization of the materials surface is inspired by strategies which mimic processes in nature. Metallo-oxide (MO)-based bioinorganic nanocomposites promise unique structures, physicochemical properties, and novel biochemical functionalities, and within the past decade, investment in research on materials such as ZnO, TiO 2, SiO 2, and GeO 2 has significantly increased. ![]()
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