Light emitting devices and methods for their manufacture are provided. According to one aspect, a light emitting device is provided that comprises a substrate having a recess, and an interlayer dielectric layer located on the substrate. The interlayer dielectric layer may have a first hole and a second hole, the first hole opening over the recess of the substrate. The light emitting device may further include first and second micro LEDs, the first micro LED having a thickness greater than the second micro LED. The first micro LED and the second micro LED may be placed in the first hole and the second hole, respectively.

Light emitting devices and methods for their manufacture are provided. According to one aspect, a light emitting device is provided that comprises a substrate having a recess, and an interlayer dielectric layer located on the substrate. The interlayer dielectric layer may have a first hole and a second hole, the first hole opening over the recess of the substrate. The light emitting device may further include first and second micro LEDs, the first micro LED having a thickness greater than the second micro LED. The first micro LED and the second micro LED may be placed in the first hole and the second hole, respectively.

A method for manufacturing a semiconductor device includes forming a bonding layer on a back-surface of a semiconductor element, mounting the semiconductor element on a base member, and bonding the semiconductor element to the base member by pressing the semiconductor element on the base member. The bonding layer includes tin. The base member includes a plating layer that includes silver and tin. The base member is heated at a prescribed temperature. The semiconductor element is placed on the base member so that the bonding layer contacts the plating layer on the base member.

An electrical binding structure is provided, which includes a substrate, a contact pad set, and a combination of a micro device and an electrode. The contact pad set is on the substrate in which the contact pad set includes at least one contact pad, and the at least one contact pad is conductive. The combination is on the contact pad set. Opposite sides of the electrode are respectively in contact with the micro device and the contact pad set in which at least the contact pad set and the electrode define at least one volume space. A vertical projection of the at least one volume space on the substrate is overlapped with a vertical projection of one of the contact pad set and the electrode on the substrate, and is enclosed by a vertical projection of an outer periphery of the micro device on the substrate.

An electrical binding structure is provided, which includes a substrate, a contact pad set, and a combination of a micro device and an electrode. The contact pad set is on the substrate in which the contact pad set includes at least one contact pad, and the at least one contact pad is conductive. The combination is on the contact pad set. Opposite sides of the electrode are respectively in contact with the micro device and the contact pad set in which at least the contact pad set and the electrode define at least one volume space. A vertical projection of the at least one volume space on the substrate is overlapped with a vertical projection of one of the contact pad set and the electrode on the substrate, and is enclosed by a vertical projection of an outer periphery of the micro device on the substrate.

A method of transferring a micro device is provided. The method includes: aligning a transfer plate with the micro device thereon with a receiving substrate having a contact pad thereon such that the micro device is above or in contact with the contact pad; moving a combination of the transfer plate with the micro device thereon and the receiving substrate into a confined space with a relative humidity greater than or equal to about 85% so as to condense some water between the micro device and the contact pad; and attaching the micro device to the contact pad.

A semiconductor device, including a conductive plate having a front surface that includes a plurality of bonding regions and a plurality of non-bonding regions in peripheries of the bonding regions, a plurality of semiconductor elements mounted on the conductive plate in the bonding regions, and a resin encapsulating therein at least the plurality of semiconductor elements and the front surface of the conductive plate. The conductive plate has, at the front surface thereof in the non-bonding regions, a plurality of holes.

A device wafer is provided that includes a substrate having major and minor surfaces, and a plurality of active devices located at the major surface. A eutectic alloy composition having a first thickness is formed at the minor surface of the substrate. The eutectic alloy composition is partially removed from the minor surface of the substrate such that a second thickness of the eutectic alloy composition remains on the minor surface, the second thickness being less than the first thickness. A bonding layer is deposited over the eutectic alloy composition. The bonding layer is utilized for joining semiconductor components of the device wafer to secondary structures.

An electronic device is provided, including a substrate, a plurality of bonding pads, and a plurality of light emitting members, wherein the bonding pads are disposed on the substrate, and the light emitting members are disposed on the bonding pads. The light emitting members include a first pair of adjacent light-emitting members, a second pair of adjacent light-emitting members, and a third pair of adjacent light-emitting members. The first pair of adjacent light-emitting members, the second pair of adjacent light-emitting members, and the third pair of adjacent light-emitting members are arranged along the first direction in sequence. The first pair of adjacent light-emitting members has a first pitch, the second pair of adjacent light-emitting members has a second pitch, and the third pair of adjacent light-emitting members has a third pitch. The third pitch is greater than the second pitch, and the second pitch is greater than the first pitch.

An electronic device is provided, including a substrate, a plurality of bonding pads, and a plurality of light emitting members, wherein the bonding pads are disposed on the substrate, and the light emitting members are disposed on the bonding pads. The light emitting members include a first pair of adjacent light-emitting members, a second pair of adjacent light-emitting members, and a third pair of adjacent light-emitting members. The first pair of adjacent light-emitting members, the second pair of adjacent light-emitting members, and the third pair of adjacent light-emitting members are arranged along the first direction in sequence. The first pair of adjacent light-emitting members has a first pitch, the second pair of adjacent light-emitting members has a second pitch, and the third pair of adjacent light-emitting members has a third pitch. The third pitch is greater than the second pitch, and the second pitch is greater than the first pitch.