Embodiments of the present disclosure are directed to using direct ink printing on chips or interposer pads to replace the other die bonding process, e.g., conductive adhesive, Anisotropic Conductive Film (ACF), solder, etc. Direct printing on contact pads of chips and/or interposers to replace using ACF bonding provides simplicity of manufacturing process, reduced cost by eliminating ACF, reduced interconnect resistance by eliminating ACF interface, and increased reliability by eliminating ACF bonding instability. Direct printing according to embodiments of the present disclosure can make complex design patterns with fine pitch capability (sub 10 micron is feasible by using aerosol jet printing, 30 microns or above for screen printing). Such direct printing can also enable roll to roll printing process for high volume production.

Provided is a circuit board on which an electronic component including a first terminal and a second terminal that are arranged side by side is to be mounted, the circuit board including: an insulating holding member, a conductive plate, and a signal circuit, in which the conductive plate is held by the holding member, the first terminal is joined to the conductive plate, the signal circuit is formed on a surface of the holding member using conductive nanoink containing a flux, and an end portion of the signal circuit and the second terminal are joined to each other using solder.

A method of forming a material layer on a substrate comprises loading a substrate into a printing zone of a coating system using a substrate handler, printing an organic ink material on a substrate while the substrate is located in the printing zone, transferring the substrate from the printing zone to a treatment zone of the coating system, treating the organic ink material deposited on the substrate in the treatment zone to form a film layer on the substrate, and removing the substrate from the treatment zone using the substrate handler.

A semiconductor device and method for fabricating a semiconductor device, comprising a paste layer is disclosed. In one example the method comprises attaching a substrate to a carrier, wherein the substrate comprises a plurality of semiconductor dies. A layer of a paste is applied to the substrate. The layer above cutting regions of the substrate is structured. The substrate is cut along the cutting regions.

A structure and a formation method of a package structure are provided. The method includes forming one or more solder elements over a substrate. The one or more solder elements surround a region of the substrate. The method also includes disposing a semiconductor die structure over the region of the substrate. The method further includes dispensing a polymer-containing liquid onto the region of the substrate. The one or more solder elements confine the polymer-containing liquid to being substantially inside the region. In addition, the method includes curing the polymer-containing liquid to form an underfill material.

A method of forming a solder connection includes forming a solder mask on a thermal pad of a printed circuit board. The solder mask leaves unmasked portions of the thermal pad and forming the solder mask includes forming a plurality of mask stripes extending from edges of each unmasked portion towards a center of the unmasked portion. The method includes depositing solder paste on the unmasked portions of the thermal pad and placing an exposed thermal pad of an integrated circuit package on the solder paste deposited on the thermal pad of the printed circuit board. The method includes forming a solder connection by heating the solder paste between the unmasked portions of the thermal pad on the printed circuit board and the exposed thermal pad of the integrated circuit package.

The present inventive concept relates to a copper based conductive paste and its preparation method. The copper based conductive paste comprises a copolymer-copper composite comprising an imidazole-silane copolymer with partially cross-linked structure and a copper powder, a solvent, a binder and an additive. The imidazole-silane copolymer with partially cross-linked structure is introduced into the copper powder whose surface is treated by a hydrochloric acid aqueous solution and a phosphoric acid aqueous solution. The imidazole-silane copolymer is polymerized by using an imidazole monomer represented by following formula 1, a silane monomer represented by following formula 2 and a cross-linking agent. ##STR00001## In Formula 1, X represents a hydrogen atom (H) or a methyl group (—CH.sub.3), and R.sub.1 represents a vinyl group or an allyl group. ##STR00002## In Formula 2, Y represents a methoxy group, a 2-methoxy ethoxy group or an acetoxy group, and R.sub.2 represents a vinyl group.

Temperature sensor packages and methods of fabrication are described. The temperature sensor packages in accordance with embodiments may be rigid or flexible. In some embodiments the temperature sensor packages are configured for touch sensing, and include an electrically conductive sensor pattern such as a thermocouple or resistance temperature detector (RTD) pattern. In some embodiments, the temperature sensor packages are configured for non-contact sensing an include an embedded transducer.

Discussed is a solar cell including a semiconductor substrate, a first tunneling layer entirely formed over a surface of the semiconductor substrate, a first conductive type area disposed on the surface of the semiconductor substrate, and an electrode including a first electrode connected to the first conductive type area.

A surface mount electronic device providing an electrical connection between an integrated circuit (IC) and a printed circuit board (PCB) is provided and includes a die and a dielectric material formed to cover portions of the die. Pillar contacts are electrically coupled to electronic components in the die and the pillar contacts extend from the die beyond an outer surface of the die. A conductive ink is printed on portions of a contact surface of the electronic device package and forms electrical terminations on portions of the dielectric material and electrical connector elements that connect an exposed end surface of the pillar contacts to the electrical terminations.