Particulate anode materials and methods for their preparation

1 - 19 . (canceled) 20 . A particulate material comprising particles of silicon or an oxide thereof, the particles having a size between 10 to 100 nanometers, wherein the particles are prepared by: (a) dry grinding particles from an ingot of silicon or an oxide thereof to obtain micrometer size particles; and (b) wet grinding the micrometer size particles dispersed in a solvent carrier to obtain the particles having a size between 10 to 100 nanometers, wherein the ingot comprises at least 98% of silicon or an oxide thereof. 21 . The particulate material of claim 20 , wherein the particles have a size between 50 to 90 nanometers. 22 . The particulate material of claim 20 , wherein the particles are of silicon. 23 . The particulate material of claim 20 , wherein the particles are of silicon oxide. 24 . The particulate material of claim 20 , wherein the particles are coated with conductive carbon. 25 . The particulate material of claim 24 , wherein the conductive carbon comprises poly(maleic anhydride-1-alt-octadecene). 26 . The particulate material of claim 20 , wherein step (a) is performed in a bead mill, a puck and ring mill, a jet mill or a cyclone mill. 27 . The particulate material of claim 20 , wherein an amount of the solvent carrier represents about 5-20 wt % of the particulate material. 28 . The particulate material of claim 27 , wherein the solvent carrier is selected from the group consisting of isopropanol, cyclohexane, water and combinations thereof. 29 . The particulate material of claim 20 , wherein a stabilizing agent is added during or after the wet grinding. 30 . The particulate material of claim 29 , wherein the stabilizing agent is a surfactant. 31 . The particulate material of claim 20 , further comprising a step of: (c) drying the nanometer size particles. 32 . The particulate material of claim 31 , further comprising the steps of: (d) mixing the nanometer size particles with a carbon precursor; and (e) pyrolysing the mixture, thereby forming a coat of conductive carbon on at least part of the surface of the particles. 33 . The particulate material of claim 32 , wherein the carbon precursor is selected from the group consisting of an organic material, a cross-linkable monomer, oligomer, polymer and copolymer. 34 . The particulate material of claim 32 , wherein the carbon precursor is poly(maleic anhydride-1-alt-octadecene). 35 . The particulate material of claim 32 , wherein the carbon precursor is non-powdery, and is in an amount of about 0.5-10 wt % of the particulate material. 36 . The particulate material of claim 32 , wherein step (e) is performed under inert atmosphere. 37 . An electrode or electrochemical storage device comprising the particulate material of claim 20 . 38 . The electrode or electrochemical storage device of claim 37 , wherein the electrode is an anode and the electrochemical storage device is selected from the group consisting of a lithium-ion battery, a silicon-air battery and a polymer battery.