A method includes providing first and second wafers; forming a first device layer in a top portion of the first wafer; forming a second device layer in a top portion of the second wafer; forming a first groove in the first device layer; forming a second groove in the second device layer; bonding the first and second wafers together after at least one of the first and second grooves is formed; and dicing the bonded first and second wafers by a cutting process, wherein the cutting process cuts through the first and second grooves.

A method includes providing first and second wafers; forming a first device layer in a top portion of the first wafer; forming a second device layer in a top portion of the second wafer; forming a first groove in the first device layer; forming a second groove in the second device layer; bonding the first and second wafers together after at least one of the first and second grooves is formed; and dicing the bonded first and second wafers by a cutting process, wherein the cutting process cuts through the first and second grooves.

A semiconductor element includes a semiconductor substrate; a collector layer on the semiconductor substrate; a base layer on the collector layer; an emitter layer on the base layer; emitter wiring electrically coupled to the emitter layer; a top metal layer on the emitter wiring; a first protective film covering the emitter wiring and the top metal layer, the first protective film having a first opening that overlaps at least the collector layer; and a bump including an under-bump metal layer electrically coupled to the emitter wiring via the first opening, the under-bump metal layer being larger than the first opening in plan-view area. The first protective film has an inner edge around the first opening, and the inner edge is on the top metal layer.

A semiconductor element includes a semiconductor substrate; a collector layer on the semiconductor substrate; a base layer on the collector layer; an emitter layer on the base layer; emitter wiring electrically coupled to the emitter layer; a top metal layer on the emitter wiring; a first protective film covering the emitter wiring and the top metal layer, the first protective film having a first opening that overlaps at least the collector layer; and a bump including an under-bump metal layer electrically coupled to the emitter wiring via the first opening, the under-bump metal layer being larger than the first opening in plan-view area. The first protective film has an inner edge around the first opening, and the inner edge is on the top metal layer.

Disclosed are semiconductor devices and methods of fabricating the same. The semiconductor device includes a first dielectric layer including a first pad, a second dielectric layer on the first dielectric layer, a through electrode that penetrates the second dielectric layer and is electrically connected to the first pad, an upper passivation layer on the second dielectric layer, a second pad on the upper passivation layer, and an upper barrier layer between the upper passivation layer and the second pad. The first pad and the through electrode include a first material. The second pad includes a second material that is different from the first material of the first pad and the through electrode. The second pad includes a first part on the upper passivation layer, and a second part that extends from the first part into the upper passivation layer and is connected to the through electrode.

Disclosed are semiconductor devices and methods of fabricating the same. The semiconductor device includes a first dielectric layer including a first pad, a second dielectric layer on the first dielectric layer, a through electrode that penetrates the second dielectric layer and is electrically connected to the first pad, an upper passivation layer on the second dielectric layer, a second pad on the upper passivation layer, and an upper barrier layer between the upper passivation layer and the second pad. The first pad and the through electrode include a first material. The second pad includes a second material that is different from the first material of the first pad and the through electrode. The second pad includes a first part on the upper passivation layer, and a second part that extends from the first part into the upper passivation layer and is connected to the through electrode.

A method of forming a three dimensional semiconductor structure includes: forming a through dielectric via extending on a first surface of a first interlayer dielectric layer of a first device; bonding the first device and a second device by the first surface and a second surface of the second device such that a through silicon contact pad on the second surface covers the through dielectric via; performing an etching process on a back side of a first substrate of the first device opposite to the first interlayer dielectric layer to simultaneously form a first via hole and a second via hole and exposing the second via hole through the through silicon contact pad; and forming a first via plug to fill the first via hole, and a second via plug to fill the second via hole and the through dielectric via.

A method of forming a three dimensional semiconductor structure includes: forming a through dielectric via extending on a first surface of a first interlayer dielectric layer of a first device; bonding the first device and a second device by the first surface and a second surface of the second device such that a through silicon contact pad on the second surface covers the through dielectric via; performing an etching process on a back side of a first substrate of the first device opposite to the first interlayer dielectric layer to simultaneously form a first via hole and a second via hole and exposing the second via hole through the through silicon contact pad; and forming a first via plug to fill the first via hole, and a second via plug to fill the second via hole and the through dielectric via.

A semiconductor device according to an embodiment includes a first electrode pad containing copper as a main component and having a thickness equal to or more than 5 μm and less than 50 μm; an electrode layer containing copper as a main component and having a thickness equal to or more than 5 μm and less than 50 μm; and a semiconductor layer provided between the first electrode pad and the electrode layer.

A semiconductor device according to an embodiment includes a first electrode pad containing copper as a main component and having a thickness equal to or more than 5 μm and less than 50 μm; an electrode layer containing copper as a main component and having a thickness equal to or more than 5 μm and less than 50 μm; and a semiconductor layer provided between the first electrode pad and the electrode layer.