The purpose of this study was to control the fabrication of new labile supramolecular assemblies by formulating associations of DNA molecules with inorganic layered double hydroxides (LDHs). The results show that LDH/DNA hybrids synthesized by a coprecipitation route involving the in situ formation of LDHs around DNA molecules acting as templates were characterized by a lamellar organization, with DNA molecules sandwiched between hydroxide layers, exhibiting a regular spacing of 1.96 nm. Our results indicate that labile complexes resulting from the association of nucleic acids and inorganic materials can be obtained not only by anion exchange but also by a direct self-assembly route.
Tantalum oxynitride films can be deposited with a high versatility in composition by reactive sputtering of a tantalum target in Ar/O2/N2 mixtures. In this paper, plasma analysis was performed from simple to more complex Ar/O2/N2 gas mixtures and linked to the layer elemental composition. The presence of two reactive gases accelerates the appearance of Compound Sputtering Mode and modifies the nature of target surface. Hence, in Ar/O2/N2, nitrogen addition can lead to poison the target surface by a nitride but also by an oxide or by an oxynitride. Finally, this comprehension of interaction between target and reactive gas was used to select suitable flow rate conditions allowing tantalum oxynitride deposition with varying optical properties.
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