Transient electronic device with ion-exchanged glass treated interposer

The invention claimed is: 1. A transient electronic device comprising: an integrated circuit (IC) die including a semiconductor substrate having an electronic circuit formed thereon, and IC contact pads disposed in a first pattern on a surface of the semiconductor substrate, said IC contact pads being operably coupled to said electronic circuit; a package structure including a package substrate, a plurality of first package contact structures disposed in a second pattern on a first surface thereof, a plurality of second package contact structures disposed on a second surface thereof, and a plurality of package conductors extending through the package structure between the first and second surfaces such that each said package conductor forms an electrical path between an associated first package contact structure and an associated second package contact structure; an interposer comprising a glass substrate including a plurality of first contact points disposed in the first pattern on a first surface thereof, a plurality of second contact points disposed on a second surface thereof, and a plurality of interposer conductors, each said interposer conductor being configured to form an electrical path between an associated first contact point and an associated second contact point; and a trigger device attached to the interposer and configured to generate and apply an initial fracture force on said glass substrate in response to a trigger signal, wherein the interposer is secured to the package substrate such that each of the second contact points disposed on the second surface are electrically connected to corresponding first package contact structures, wherein the glass substrate contains an amount of ions such that secondary fractures are generated in said glass substrate in response to said initial fracture force and propagate throughout said glass substrate, whereby said glass substrate is powderized, and wherein the IC die is fixedly attached to the glass substrate such that the secondary fractures propagate into said IC die with sufficient energy to powderize said IC die. 2. The transient electronic device of claim 1 , wherein the glass substrate comprises a thickness in the range of 100 μm and 300 μm. 3. The transient electronic device of claim 2 , wherein the glass substrate comprises a silicate glass. 4. The transient electronic device of claim 2 , wherein said glass substrate defines a plurality of through-glass vias extending between the first surface and the second surface thereof. 5. The transient electronic device of claim 4 , wherein each said interposer conductor comprises a metal via structure extending through an associated said through-glass via. 6. The transient electronic device of claim 5 , wherein said metal via structure comprises a conductive material having a Coefficient of Thermal Expansion (CTE) that is matched to a CTE of the glass substrate. 7. The transient electronic device of claim 4 , wherein at least some of said interposer conductors further comprises a metal trace structure disposed one one of said first surface and said second surface and extending from an associated said metal via structure to one of an associated said first contact point and an associated said second contact point. 8. The transient electronic device of claim 1 , wherein said trigger device comprises an actuating mechanism configured to control release of said initial fracture force in response to an externally supplied trigger signal. 9. The transient electronic device of claim 8 , wherein said actuating mechanism comprises one of a device configured to apply resistive heating to said glass substrate and a device configured to apply a mechanical pressure to said glass substrate. 10. The transient electronic device of claim 1 , wherein said IC die is anodically bonded to said glass substrate. 11. The transient electronic device of claim 1 , wherein said IC die comprises a silicon-on-insulator (SOI) integrated circuit device.