An electrical connection member (1, 301, 401, 501, 601) includes a clad material (10, 110, 610) including at least both a first Cu layer (12) made of a Cu material and a low thermal expansion layer (11) made of an Fe material or Ni material having an average thermal expansion coefficient from room temperature to 300° C. smaller than that of the first Cu layer, the first Cu layer and the low thermal expansion layer being bonded to each other.

A connection member for connecting an electronic chip, wherein the connection member comprises a bulk body, and a coating at least partially coating the bulk body and comprising a material having higher electric and higher thermal conductivity than the bulk body, wherein a ratio between a thickness of the coating and a thickness of the bulk body is at least 0.0016 at at least a part of the connection member.

A thermal management solution may be provided for a microelectronic system including a flexible integrated heat spreader, wherein the flexible integrated heat spreader may comprise a plurality of thermally conductive structures having a flexible thermally conductive film attached to and extending between each of the plurality of thermally conductive structures. The flexible integrated heat spreader may be incorporated into multi-chip package by providing a microelectronic substrate having a plurality of microelectronic devices attached thereto and by thermally contacting each of the plurality of thermally conductive structures of the flexible integrated heat spreader to its respective microelectronic device on the microelectronic substrate.

A thermal management solution may be provided for a microelectronic system including a flexible integrated heat spreader, wherein the flexible integrated heat spreader may comprise a plurality of thermally conductive structures having a flexible thermally conductive film attached to and extending between each of the plurality of thermally conductive structures. The flexible integrated heat spreader may be incorporated into multi-chip package by providing a microelectronic substrate having a plurality of microelectronic devices attached thereto and by thermally contacting each of the plurality of thermally conductive structures of the flexible integrated heat spreader to its respective microelectronic device on the microelectronic substrate.

A thermal management solution may be provided for a microelectronic system including a flexible integrated heat spreader, wherein the flexible integrated heat spreader may comprise a plurality of thermally conductive structures having a flexible thermally conductive film attached to and extending between each of the plurality of thermally conductive structures. The flexible integrated heat spreader may be incorporated into multi-chip package by providing a microelectronic substrate having a plurality of microelectronic devices attached thereto and by thermally contacting each of the plurality of thermally conductive structures of the flexible integrated heat spreader to its respective microelectronic device on the microelectronic substrate.

A thermal management solution may be provided for a microelectronic system including a flexible integrated heat spreader, wherein the flexible integrated heat spreader may comprise a plurality of thermally conductive structures having a flexible thermally conductive film attached to and extending between each of the plurality of thermally conductive structures. The flexible integrated heat spreader may be incorporated into multi-chip package by providing a microelectronic substrate having a plurality of microelectronic devices attached thereto and by thermally contacting each of the plurality of thermally conductive structures of the flexible integrated heat spreader to its respective microelectronic device on the microelectronic substrate.