An electronic device includes: (i) a first chiplet including a first seal ring, which is disposed in metal layers embedded between a first surface of the first chiplet, and a first substrate of the first chiplet, (ii) a second chiplet including a second seal ring, which is disposed in metal layers embedded between a second surface of the second chiplet, and a second substrate of the second chiplet, and (iii) a third seal ring, which surrounds the first and second chiplets and is disposed in a dielectric substrate extrinsic to the metal layers and overlaying the first and second surfaces of the first and second chiplets.

Integrated circuit (IC) chips and seal ring structures are provided. An IC chip according to the present disclosure includes a substrate and a first interconnect layer over the substrate. The first interconnect layer includes a first device region and a first ring region surrounding the first device region. The first ring region includes a first wall fully surrounding the first device region and a second wall fully surrounding the first device region and the first wall. The first wall is spaced apart from the second wall by a first intermetal dielectric layer and at least one first dummy metal line along an edge of the first device region. The first wall is spaced apart from the second wall only by the first intermetal dielectric layer around a corner of the first device region.

A semiconductor structure according to the present disclosure includes a circuit region disposed over a substrate and a seal ring region disposed over the substrate and completely surrounding the circuit region. The circuit region includes first fins, second fins, n-type epitaxial structures over the first fins, and p-type epitaxial structures over the second fins. The seal ring region includes fin rings extending completely around the circuit region, epitaxial rings disposed over and extending parallel to the fin rings. All of the epitaxial rings over all of the fin rings in the seal ring region are p-type epitaxial rings.

Integrated circuit (IC) chips and seal ring structures are provided. An IC chip according to the present disclosure includes a substrate that has a device region and a ring region surrounding the device region, an interconnect structure disposed on the substrate, a first passivation layer disposed over the interconnect structure, a first contact via ring embedded in the first passivation layer, a first contact pad ring disposed on the first contact via ring and the first passivation layer, a second passivation layer disposed over the first contact pad ring, and a polymer layer disposed on a portion of the second passivation layer. The first contact via ring and the first contact pad ring completely surround the device region.

Provided is a semiconductor device including: a semiconductor substrate provided with an active portion and an edge termination structure portion surrounding the active portion; an interlayer dielectric film provided above the semiconductor substrate; a protective film provided above the interlayer dielectric film; and a protruding portion provided farther from the active portion than the edge termination structure portion and protruding further than the interlayer dielectric film. The protruding portion is not covered with the protective film. The protective film is provided closer to the active portion than the protruding portion.

A method for fabricating an integrated circuit device is disclosed. A substrate is provided and an integrated circuit area is formed on the substrate. The integrated circuit area includes a dielectric stack. A seal ring is formed in the dielectric stack and around a periphery of the integrated circuit area. A trench is formed around the seal ring and exposing a sidewall of the dielectric stack. The trench is formed within a scribe line. A moisture blocking layer is formed on the sidewall of the dielectric stack, thereby sealing a boundary between two adjacent dielectric films in the dielectric stack.

Catalyst particles comprising one or more active metal components and methods for manufacturing such catalyst particles are provided. The particles are a composite of a granulating agent or binder material such as an inorganic oxide, and an ultra-stable Y (hereafter “USY”) zeolite in which some of the aluminum atoms in the framework are substituted with zirconium atoms and/or titanium atoms and/or hafnium atoms. The one or more active phase components are incorporated in a composite mixture of the inorganic oxide binder and the post-framework modified USY zeolite prior to forming the catalyst particles.

A semiconductor package includes a substrate, a semiconductor device, and a ring structure. The semiconductor device disposed on the substrate. The ring structure disposed on the substrate and surrounds the semiconductor device. The ring structure includes a first portion and a second portion. The first portion bonded to the substrate. The second portion connects to the first portion. A cavity is between the second portion and the substrate.

A three-dimensional (3D) integrated circuit (IC) is provided. In some embodiments, a second IC die is bonded to a first IC die. The first IC die includes a first semiconductor substrate and a first interconnect structure over the first semiconductor substrate. The second IC die includes a second semiconductor substrate and a second interconnect structure over the second semiconductor substrate. A plurality of electrical coupling structures is arranged at the peripheral region of the first semiconductor device and the second semiconductor device. The plurality of electrical coupling structures respectively comprises a through silicon via (TSV) disposed in the second semiconductor substrate and electrically coupled to the first semiconductor device through a stack of wiring layers and inter-wire vias.

A semiconductor structure includes a substrate, a circuit region, and a seal ring surrounding the circuit region. The circuit region includes two first source/drains, first semiconductor layers connecting the two first source/drains, and a first gate disposed between the two first source/drains and wrapping around each of the first semiconductor layers. The seal ring includes two epitaxially grown semiconductor structures, second semiconductor layers, third semiconductor layers, and a second gate. The second and the third semiconductor layers are alternately stacked one over another to form a stack of layers. A topmost layer of the stack is one of the third semiconductor layers. The second gate is disposed between the two epitaxially grown semiconductor structures and above the topmost layer of the stack. The first and the third semiconductor layers include a first semiconductor material. The second semiconductor layers include a second semiconductor material different from the first semiconductor material.