Method for producing coated nickel-based lithium-nickel composite oxide particles

The invention claimed is: 1. A method for producing a coated nickel-based lithium-nickel composite oxide particle, comprising: an organic compound radicalization step of obtaining a radicalized organic compound by introducing an organic compound having 8 or less carbon atoms into a reaction gas, which has been excited into a plasma under the atmosphere, together with a carrier gas and radicalizing the organic compound; and a coating step of coating a surface of a nickel-based lithium-nickel composite oxide particle with a coat film that contains an organic compound of a polymer or copolymer by bringing the radicalized organic compound into contact with the surface of the nickel-based lithium-nickel composite oxide particle. 2. The method for producing a coated nickel-based lithium-nickel composite oxide particle according to claim 1 , wherein the organic compound having 8 or less carbon atoms is an organic compound including at least one or more kinds selected from the group consisting of an aliphatic compound having 4 or less carbon atoms and an alicyclic compound having 4 or less carbon atoms. 3. The method for producing a coated nickel-based lithium-nickel composite oxide particle according to claim 1 , wherein the organic compound having 8 or less carbon atoms is an organic compound including at least one or more kinds selected from the group consisting of an aliphatic compound having 5 or more to 8 or less carbon atoms, an alicyclic compound having 5 or more to 8 or less carbon atoms, and an aromatic compound having 5 or more to 8 or less carbon atoms. 4. The method for producing a coated nickel-based lithium-nickel composite oxide particle according to claim 1 , wherein the reaction gas includes at least one or more gases selected from the group consisting of argon, helium, nitrogen, oxygen, and air. 5. The method for producing a coated nickel-based lithium-nickel composite oxide particle according to claim 1 , wherein the carrier gas includes at least one or more gases selected from the group consisting of argon, helium, and nitrogen. 6. The method for producing a coated nickel-based lithium-nickel composite oxide particle according to claim 1 , wherein the nickel-based lithium-nickel composite oxide particle is represented by the following Formula (1), Li x Ni (1-y-z) M y N z O 2   (1) wherein x is a value of from 0.80 to 1.10, y is a value of from 0.01 to 0.20, z is a value of from 0.01 to 0.15, and 1-y-z is a value exceeding 0.65, and M represents at least one element selected from Co or Mn, and N represents at least one element selected from Al, In or Sn. 7. A coated nickel-based lithium-nickel composite oxide particle for a lithium-ion battery positive-electrode active substance, wherein a coat film of a polymer or copolymer of an aliphatic hydrocarbon compound, or a polymer or copolymer containing an alicyclic hydrocarbon compound is formed all over the surface of a nickel-based lithium-nickel composite oxide particle, so that the coat film prevents the composite oxide particle from contacting the air when the coated nickel-based lithium-nickel composite oxide particle is exposed to the air, wherein a thickness of the coat film is in a range of 4 nm or more to 200 nm or less.