"Somewhere, something incredible is waiting to be known." --- Carl Sagan

Nano-energetic materials have recently become a subject of intense interest due to improved performance in terms of energy release, ignition kinetics, and mechanical properties compared with the micron-sized predecessors.Traditionally, nanoenergetics or metastable intermolecular composites (MIC) are prepared by physical mixing of a fuel (e.g. aluminium) and oxidizer (e.g. CuO, Fe2O3). However, composites synthesized through physical mixing or sol-gel route mechanism possess inhomogeneous distribution of oxidizer and fuel which creates random hot spot density and thus, limit the energy transferrates. Therefore, by homogenizing the distribution of a fuel around an oxidizer, the rate of energy release or propagation of combustion wave front can be substantially increased due to an increase in interfacial contact area. Recently,The molecular self assembly approach have been developed for homogeneously arranging the fuel nanoparticles in ordered and controlled manner around oxidizers. .

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