Abstract: A flowable, (e.g., screen printable, stencil printable and/or dispensable) thermally conductive paste is disclosed and provide low temperature curing or firing. The pastes are useful in forming thermally conductive pathways for electronic type applications, such as, providing thermal conduction between a semiconductor chip and its associate semiconductor chip packaging (e.g. power electronic applications), which can be useful in power converters, electrical power steering modules, car head lights (LEDs), solar cells, printed circuit boards (PCBs), plasma display panels (PDPs), and the like. The pastes have a combination of conductive flakes and particles in a minimal amount of carrier fluid and carrier resin to provide advantageous deposition and heat melding properties.

Abstract: A flowable, (e.g., screen printable, stencil printable and/or dispensable) thermally conductive paste is disclosed and provide low temperature curing or firing. The pastes are useful in forming thermally conductive pathways for electronic type applications, such as, providing thermal conduction between a semiconductor chip and its associate semiconductor chip packaging (e.g. power electronic applications), which can be useful in power converters, electrical power steering modules, car head lights (LEDs), solar cells, printed circuit boards (PCBs), plasma display panels (PDPs), and the like. The pastes have a combination of conductive flakes and particles in a minimal amount of carrier fluid and carrier resin to provide advantageous deposition and heat melding properties.

Abstract: A process for the production of a MWT silicon solar cell, wherein a conductive metal paste with no or only poor fire-through capability is applied, dried and fired to form a continuous metallization comprising a top set of conductive metal collector lines and a metallization of the inside of the holes of an n-type MWT silicon solar cell wafer, wherein the top set of conductive metal collector lines superimposes a bottom set of conductive metal collector lines on the front-side of the n-type MWT silicon solar cell wafer, said bottom set of conductive metal collector lines having no contact with the inside of the holes.

Abstract: A process for the production of a MWT silicon solar cell, wherein a conductive metal paste with no or only poor fire-through capability is applied, dried and fired to form a continuous metallization comprising a top set of conductive metal collector lines and a metallization of the inside of the holes of a p-type MWT silicon solar cell wafer, wherein the top set of conductive metal collector lines superimposes a bottom set of conductive metal collector lines on the front-side of the p-type MWT silicon solar cell wafer, said bottom set of conductive metal collector lines having no contact with the inside of the holes.