According to one embodiment, a semiconductor device includes a first substrate; a first insulating film provided on the first substrate; a first plug provided in the first insulating film; a second substrate provided on the first insulating film; and a first wiring including a first portion and a second portion. The first portion is provided in the second substrate and coupled to the first plug, and the second portion is provided on the second substrate and coupled to a bonding pad.

A semiconductor structure includes a multi-level interconnect structure, a passivation layer, a barrier layer, and a pad layer. The passivation layer is above the multi-level interconnect structure. The barrier layer lines an inner sidewall of the passivation layer, a top surface of the passivation layer and a top surface of a conductive line of the multi-level interconnect structure. The barrier layer includes a first layer, a second layer, a third layer, and a fourth layer. The first layer is in a nano-crystalline phase. The second layer is above the first layer and in an amorphous phase. The third layer is above the second layer and in a polycrystalline phase. The fourth layer is above the third layer and in a nano-crystalline phase. The pad layer is above the barrier layer.

A semiconductor structure includes a multi-level interconnect structure, a passivation layer, a barrier layer, and a pad layer. The passivation layer is above the multi-level interconnect structure. The barrier layer lines an inner sidewall of the passivation layer, a top surface of the passivation layer and a top surface of a conductive line of the multi-level interconnect structure. The barrier layer includes a first layer, a second layer, a third layer, and a fourth layer. The first layer is in a nano-crystalline phase. The second layer is above the first layer and in an amorphous phase. The third layer is above the second layer and in a polycrystalline phase. The fourth layer is above the third layer and in a nano-crystalline phase. The pad layer is above the barrier layer.

The present technique relates to a solid-state image pickup element and an electronic apparatus each of which enables a pad to be formed in a shallow position while reduction of a quality of a back side illumination type solid-state image pickup element is suppressed. The solid-state image pickup element includes a pixel substrate in which a light condensing layer for condensing incident light on a photoelectric conversion element, a semiconductor layer in which the photoelectric conversion element is formed, and a wiring layer in which a wiring and a pad for outside connection are formed are laminated on one another, and at least a part of a first surface of the pad is exposed through a through hole completely extending through the light condensing layer and the semiconductor layer. The present technique, for example, can be applied to a back side illumination type CMOS image sensor.

A method for forming a via in a semiconductor device and a semiconductor device including the via are disclosed. In an embodiment, the method may include bonding a first terminal and a second terminal of a first substrate to a third terminal and a fourth terminal of a second substrate; separating the first substrate to form a first component device and a second component device; forming a gap fill material over the first component device, the second component device, and the second substrate; forming a conductive via extending from a top surface of the gap fill material to a fifth terminal of the second substrate; and forming a top terminal over a top surface of the first component device, the top terminal connecting the first component device to the fifth terminal of the second substrate through the conductive via.

A semiconductor component is provided. The semiconductor component includes a substrate and a pad. The pad has an upper surface and a slot, wherein the slot is recessed with respect to the upper surface.

An inductor conductor design which minimizes the impact of skin effect in the conductors at high frequencies in integrated circuits and the method of manufacture thereof is described herein.

The present disclosure, in some embodiments, relates to an integrated chip. The integrated chip includes an interconnect structure disposed over a substrate. The interconnect structure includes a plurality of interconnect layers disposed within a dielectric structure. A bond pad structure is disposed over the interconnect structure. The bond pad structure includes a contact layer. A first masking layer including a metal-oxide is disposed over the bond pad structure. The first masking layer has interior sidewalls arranged directly over the bond pad structure to define an opening. A conductive bump is arranged within the opening and on the contact layer.

In a method of manufacturing a semiconductor device first conductive layers are formed over a substrate. A first photoresist layer is formed over the first conductive layers. The first conductive layers are etched by using the first photoresist layer as an etching mask, to form an island pattern of the first conductive layers separated from a bus bar pattern of the first conductive layers by a ring shape groove. A connection pattern is formed to connect the island pattern and the bus bar pattern. A second photoresist layer is formed over the first conductive layers and the connection pattern. The second photoresist layer includes an opening over the island pattern. Second conductive layers are formed on the island pattern in the opening. The second photoresist layer is removed, and the connection pattern is removed, thereby forming a bump structure.

An integrated circuit (IC) package is described. The IC package includes a die, having a pad layer structure on back-end-of-line layers on a substrate. The die also includes a metallization routing layer on the pad layer structure, and a first under bump metallization layer on the metallization routing layer. The IC package also includes a patterned seed layer on a surface of the die to contact the first under bump metallization layer. The IC package further includes a first package bump on the first under bump metallization layer.