Ultra-fine fibrous carbon for non-aqueous electrolyte secondary battery, ultra-fine fibrous carbon aggregate, composite, and electrode active material layer

What is claimed is: 1. Ultrafine fibrous carbons which are solid ultrafine fibrous carbons produced by a melt-blend spinning method, wherein the ultrafine fibrous carbons have a linear structure in which a branching structure is not present, an average fiber length of from 1 to 100 μm, and an average fiber diameter of more than 200 nm to 900 nm, wherein (i) at least a part of the surface of said ultrafine fibrous carbons is modified with a surfactant, and/or (ii) at least a part of the surface of said ultrafine fibrous carbons is oxidatively treated. 2. The ultrafine fibrous carbons according to claim 1 , which are disintegrated. 3. The ultrafine fibrous carbons according to claim 2 , which are disintegrated by a dry pulverizer and/or a wet pulverizer. 4. The ultrafine fibrous carbons according to claim 1 , wherein the aspect ratio of said ultrafine fibrous carbons is from 1 to 1,000. 5. A production method of the ultrafine fibrous carbons according to claim 1 , comprising: modifying with a surfactant at least a part of the surface of said ultrafine fibrous carbons, and/or oxidatively treating at least a part of the surface of said ultrafine fibrous carbons, wherein the ultrafine fibrous carbons have a linear structure in which a branching structure is not present, an average fiber length of from 1 to 100 μm, and an average fiber diameter of more than 200 nm to 900 nm. 6. The production method of the ultrafine fibrous carbons according to claim 5 , wherein the ultrafine fibrous carbons are disintegrated by a dry pulverizer and/or a wet pulverizer. 7. Ultrafine-fibrous-carbon aggregates, wherein the ultrafine fibrous carbons according to claim 1 are aggregated. 8. The ultrafine-fibrous-carbon aggregates according to claim 7 , wherein, in the volume-based fiber length distribution of said ultrafine-fibrous-carbon aggregates, which is obtained by measuring the volume-based particle size distribution, a first peak exists at a fiber length of 15 μm or less and a second peak exists at a fiber length of more than 15 μm, and the ratio of the volume-based particle size distribution (%) of said first peak to the volume-based particle size distribution (%) of said second peak is 3/1 or more. 9. The ultrafine-fibrous-carbon aggregates according to claim 7 , wherein the average fiber length of said ultrafine fibrous carbons in said ultrafine-fibrous-carbon aggregates is 25 μm or less. 10. The ultrafine-fibrous-carbon aggregates according to claim 7 , which are formed through a treatment in an ultra-centrifugal mill. 11. A production method of the ultrafine-fibrous-carbon aggregates according to claim 10 , comprising treating the ultrafine fibrous carbons in an ultra-centifugal mill. 12. A carbon-based electroconductive agent, comprising (i) the ultrafine fibrous carbons according to claim 1 and/or (ii) ultrafine-fibrous-carbon aggregates, wherein the ultrafine fibrous carbons according to claim 1 are aggregated. 13. An electrode material for a non-aqueous electrolyte secondary battery, comprising at least the carbon-based electroconductive agent according to claim 12 , an electrode active material, and a binder. 14. An electrode for a non-aqueous electrolyte secondary battery, comprising a collector and an active material layer on said collector, wherein said active material layer is composed of the electrode material for a non-aqueous electrolyte secondary battery according to claim 13 . 15. A non-aqueous electrolyte secondary battery, comprising the electrode for a non-aqueous electrolyte secondary battery according to claim 14 . 16. The ultrafine fibrous carbons according to claim 2 , wherein the aspect ratio of said ultrafine fibrous carbons is from 1 to 1,000. 17. The ultrafine fibrous carbons according to claim 3 , wherein the aspect ratio of said ultrafine fibrous carbons is from 1 to 1,000.