Active material, battery and method for producing active material

What is claimed is: 1 . An active material comprising a primary particle including at least one crystal phase of a Type I silicon clathrate and a Type II silicon clathrate, and the primary particle includes a void inside thereof. 2 . The active material according to claim 1 , wherein the crystal phase of the Type I silicon clathrate has a peak at a position of 2θ=19.44°±1.00°, 21.32°±1.00°, 30.33°±1.00°, 31.60°±1.00°, 32.82°±1.00°, 36.29°±1.00°, 52.39°±1.00°, and 55.49°±1.00° in X-ray diffraction measurement using a CuKα ray. 3 . The active material according to claim 1 , wherein the crystal phase of the Type II silicon clathrate has a peak at a position of 2θ=20.09°±1.00°, 21.00°±1.00°, 26.51°±1.00°, 31.72°±1.00°, 36.26°±1.00°, and 53.01°±1.00° in X-ray diffraction measurement using a CuKα ray. 4 . The active material according to claim 1 , wherein a void ratio inside the primary particle is 4% or more. 5 . A battery comprising a cathode layer, an electrolyte layer, and an anode layer, in this order, and the anode layer includes the active material according to claim 1 . 6 . A method for producing an active material according to claim 1 , the method comprising steps of: a preparing step of preparing a precursor compound including at least a Na element and a Si element, and having at least a Zintl phase; and a heat treating step of heat treating the precursor compound, and the heat treating step includes a temperature rising treatment of rising a temperature to a first temperature at a rate of 100° C./min or more under reduced pressure, and after the temperature rising, a burning treatment of burning under reduced pressure.