Induction cookware

What is claimed: 1. A cooking utensil for use with an induction cooktop having an induction coil, the cooking utensil comprising: an inner wall comprising an electrically conductive target layer in which heat is generated by the induction coil; an outer wall within which the inner wall is nested, the outer wall comprising an electrically non-conductive layer, wherein the outer wall cooperates with the inner wall to form a sealed gap between the inner wall and the outer wall and further cooperates with the inner wall to provide the cooking utensil a pan shape having a bottom portion, wherein at least a portion of the electrically conductive target layer is disposed along a bottom portion of the inner wall; and a thermally resistive material disposed within the gap within at least a portion of the bottom portion of the cooking utensil, wherein a surface of the thermally resistive material faces towards the inner wall and the entirety of the thermally resistive material is spaced away from contact with the inner wall by a portion of the gap. 2. The cooking utensil of claim 1 , wherein the outer wall further comprises a reflective layer disposed on a surface of the outer wall that defines a portion of the gap and faces the inner wall. 3. The cooking utensil of claim 2 , wherein the reflective layer is segmented such that the reflective layer is non-contiguous to interrupt a flow of a current induced in the reflective layer by the induction coil. 4. The cooking utensil of claim 1 , wherein the outer wall further comprises an impermeable material to aid in reducing the permeation of an atmospheric gas through the outer wall and into the gap. 5. The cooking utensil of claim 1 , wherein the thermally resistive material is one of the group consisting of: a silica aerogel and a silica aerogel with carbon. 6. The cooking utensil of claim 1 , wherein the thermally resistive material is affixed to an inner surface of the outer wall. 7. The cooking utensil of claim 1 , wherein the inner wall further comprises a heat spreader layer and a cooking layer. 8. The cooking utensil of claim 7 , wherein: the inner wall has a pan shape having a flat bottom portion, having an inner surface defining a cooking chamber, and having an outer surface that defines a portion of the gap and faces the outer wall; the cooking layer provides all of the inner surface; the target layer provides the outer surface within the bottom portion of the inner wall; and the heat spreader layer conducts heat generated in the target layer to at least the cooking layer. 9. A cooking utensil for use with an induction cooktop having an induction coil, the cooking utensil comprising: an inner wall comprising an electrically conductive target layer in which heat is generated by the induction coil; an outer wall comprising an electrically non-conductive layer that cooperates with the inner wall to form a sealed gap between the inner wall and the outer wall; and a thermally resistive material disposed within the gap, wherein a surface of the thermally resistive material faces towards the inner wall and the entirety of the thermally resistive material is spaced away from contact with any portion of the inner wall comprising the electrically conductive target layer; wherein the thermally resistive material is affixed to an inner surface of the outer wall. 10. The cooking utensil of claim 9 , wherein the outer wall further comprises an impermeable material to aid in reducing the permeation of an atmospheric gas through the outer wall and into the gap. 11. The cooking utensil of claim 9 , wherein the inner wall further comprises a heat spreader layer and a cooking layer. 12. The cooking utensil of claim 11 , wherein the inner wall has a pan shape having a flat bottom portion, having an inner surface defining a cooking chamber, and having an outer surface that defines a portion of the gap and faces the outer wall, wherein: the cooking layer provides all of the inner surface; the electrically conductive target layer provides the outer surface of the bottom portion of the inner wall; and the heat spreader layer conducts heat generated in the electrically conductive target layer to at least the cooking layer. 13. The cooking utensil of claim 9 , wherein the thermally resistive material is one of the group consisting of: a silica aerogel and a silica aerogel with carbon. 14. The cooking utensil of claim 9 , wherein the inner wall and the outer wall cooperate to provide the cooking utensil a pan shape having a bottom portion and a side wall portion, and wherein the inner wall is nested within the outer wall; and the thermally resistive material is disposed within a portion of the gap within the bottom portion of the cooking utensil. 15. The cooking utensil of claim 14 , further comprising a reflective layer disposed on a surface of the outer wall that faces the inner wall. 16. The cooking utensil of claim 14 , further comprising a thermal mat disposed within a portion of the gap within the side wall portion, wherein the thermal mat comprises an aerogel, and wherein the thermal mat is affixed to a surface of the outer wall that defines a portion of the gap. 17. The cooking utensil of claim 14 , wherein the electrically conductive target layer is disposed along the bottom portion of the cooking utensil, and wherein the thermally resistive material extends further across the bottom portion of the cooking utensil than does the target layer. 18. A method of making a cooking utensil, the method comprising: joining an outer wall comprising an electrically non-conductive layer to an inner wall comprising an electrically conductive target layer in which heat is able to be generated by an induction coil of an induction cooktop to define a gap between the inner wall and the outer wall such that the inner wall is nested within the outer wall and such that the inner wall and the outer wall cooperate to provide the cooking utensil with a pan shape having a bottom portion wherein at least a portion of the electrically conductive target layer is disposed along a bottom portion of the inner wall; and disposing within the gap, with a surface that faces the inner wall and the entirety of which is spaced away from contact with the inner wall within at least a portion of the bottom portion of the cooking utensil, a thermally resistive material, and; adhering the thermally resistive material to an inner surface of the outer wall. 19. A cooking utensil for use with an induction cooktop having an induction coil, the cooking utensil comprising: an inner wall comprising an electrically conductive target layer in which heat is generated by the induction coil; an outer wall within which the inner wall is nested, the outer wall comprising an electrically non-conductive layer, wherein the outer wall cooperates with the inner wall to form a sealed gap between the inner wall and the outer wall and further cooperates with the inner wall to provide the cooking utensil a pan shape having a bottom portion, wherein at least a portion of the electrically conductive target layer is disposed along a bottom portion of the inner wall; and a thermally resistive material disposed within the gap within at least a portion of the bottom portion of the cooking utensil, wherein a surface of the thermally resistive material faces towards the inner wall and the entirety of the thermally resistive material is spaced away from contact with the inner wall by a portion of the gap; wherein the thermally resistive material comprises