Composite material comprising carbon nano-objects, process for preparing same, and ink and electrode comprising this material

1 . A composite material, comprising: nano-objects made of at least one first electron conducting material; and nano-objects or submicron objects made of at least one second material differing from the first material, wherein the composite material comprises nanostructures each comprising the nano-objects made of at least one first electron conducting material marked with a first molecule, the nano-objects or submicron objects are made of at least one second material differing from the first material being marked with a second molecule and being self-assembled and attached onto the nano-objects made of at least one first material by specific recognition between the first molecule and the second molecule, said nanostructures being homogeneously distributed in the material, the nano-objects made of at least one first electron conducting material are selected from the group consisting of carbon nanotubes and carbon fibres, and the nano-objects or submicron objects are made of at least one second material differing from the first material and selected from the group consisting of silicon nanoparticles and submicron silicon particles. 2 . The material according to claim 1 , wherein the first marking molecule and the second marking molecule constitute a specific recognition pair between molecules, selected from among the pairs: (strept)avidin/biotin; protein A/immunoglobulin; protein G/immunoglobulin; antibody/antigen or antibody/epitope pairs; enzyme/substrate pairs; and nucleotide sequence/complementary nucleotide sequence pairs. 3 . The material according to claim 1 , wherein the size of each of the nanostructures is at least equal to the size of each of the nano-objects made of at least one first electron conducting material. 4 . The material according to claim 1 , wherein the carbon nanotubes are selected from the group consisting of single-wall carbon nanotubes, and multi-wall carbon nanotubes. 5 . The material according to claim 1 , wherein the silicon nanoparticles or submicron silicon particles are of spherical or spheroidal shape. 6 . The material according to claim 1 , wherein a ratio of the number of nano-objects or submicron objects made of at least one second material to the number of nano-objects made of at least one first material is 1:100 or less. 7 . The material according to claim 1 , which is in the form of a powder. 8 . The material according to claim 7 , wherein the powder has a mean particle size of between 1 μm and 100 μm, a specific surface area of between 10 m 2 /g and 50 m 2 /g, and a density of between 2.014 g/cm 3 and 2.225 g/cm 3 . 9 . A process for preparing the composite material of claim 1 , the process comprising: a) marking the nano-objects made of at least one first material with a first molecule, by mixing the first molecule and a dispersion in water of the nano-objects made of at least one first material, then the nano-objects made of at least one first material marked with the first molecule are freeze-dried; b) marking the nano-objects or submicron objects made of at least one second material with a second molecule by contacting a solution in water of the second molecule with the nano-objects or submicron objects made of at least one second material, then the nano-objects or submicron objects made of at least one second material marked with the second molecule are freeze-dried; then c) the lyophilised (freeze-dried) nano-objects made of at least one first material marked with the first molecule are contacted under agitation in water with the lyophilised nano-objects or submicron objects made of at least one second material marked with the second molecule; whereby the nanocomposite material is obtained comprising the nano-objects made of at least one first electron conducting material and the nano-objects or submicron objects made of at least one second material differing from the first material, and the nanocomposite material is separated from the water in powder form; d) optionally, the nanocomposite material is dried. 10 . An ink, comprising the composite material according to claim 1 and a vehicle. 11 . The ink according to claim 10 , further comprising at least one electron conductor. 12 . An electrode, comprising as electrochemically active material the composite material according to claim 1 . 13 . The electrode according to claim 12 , which is a negative electrode. 14 . An electrochemical system, comprising an electrode according to claim 12 . 15 . The electrochemical system according to claim 14 , which is a system with non-aqueous electrolyte. 16 . The electrochemical system according to claim 15 , which is a lithium ion storage battery.