An integrated circuit chip attachment in a microstructure device is accomplished through the use of an adhesive-based material in which graphene flakes are incorporated. This results in superior thermal conductivity. The spatial orientation of the graphene flakes is controlled, for example by adhering polar molecules to the graphene flakes and exposing the flakes to an external force field, so that the graphene flakes have desired orientations under the integrated circuit chip, alongside of the integrated circuit chip and above the integrated circuit chip.

Embodiments may relate to a microelectronic package comprising that includes a solder thermal interface material (STIM). The STIM may include indium and a dopant material which may provide a number of benefits to the STIM. The STIM may physically and thermally couple a die and an integrated heat spreader (IHS). Other embodiments may be described or claimed.

Embodiments may relate to a microelectronic package comprising that includes a solder thermal interface material (STIM). The STIM may include indium and a dopant material which may provide a number of benefits to the STIM. The STIM may physically and thermally couple a die and an integrated heat spreader (IHS). Other embodiments may be described or claimed.