A thermosetting sheet according to the present invention includes a thermosetting resin and a thermoplastic resin, in which a thickness change rate when a temperature is changed from 25° C. to 200° C. is 0% or more and 10% or less.

The present invention relates to a dicing film including: a substrate film; and a cohesive layer, wherein a storage modulus of the cohesive layer at 30° C. is 3*10.sup.5 to 4*10.sup.6 Pa, and the cohesive layer has a degree of cross-linking of 80% to 99%, a dicing die-bonding film including the dicing film, and a dicing method of a semiconductor wafer using the dicing die-bonding film.

The present invention relates to a dicing film including: a substrate film; and a cohesive layer, wherein a storage modulus of the cohesive layer at 30° C. is 3*10.sup.5 to 4*10.sup.6 Pa, and the cohesive layer has a degree of cross-linking of 80% to 99%, a dicing die-bonding film including the dicing film, and a dicing method of a semiconductor wafer using the dicing die-bonding film.

A thermosetting sheet according to the present invention includes: a thermosetting resin; a thermoplastic resin; and conductive particles. The conductive particles includes silver particles having an average particle size D.sub.50 of 0.01 μm or more and 10 μm or less, and having a circularity in cross section of 0.7 or more. The thermosetting sheet has a viscosity at 100° C. of 20 kPa.Math.s or more and 3000 kPa.Math.s or less.

A thermosetting sheet according to the present invention includes: a thermosetting resin; a thermoplastic resin; and conductive particles. The conductive particles includes silver particles having an average particle size D.sub.50 of 0.01 μm or more and 10 μm or less, and having a circularity in cross section of 0.7 or more. The thermosetting sheet has a viscosity at 100° C. of 20 kPa.Math.s or more and 3000 kPa.Math.s or less.

An electrically non-conducting film (109) comprising an oligomer comprising an arylene or heteroarylene repeating unit is disposed between a chip (105), e.g. a flip-chip, and a functional layer (101), e.g. a printed circuit board, electrically connected to the chip by electrically conducting interconnects (107). The oligomer may be crosslinked.

An electrically non-conducting film (109) comprising an oligomer comprising an arylene or heteroarylene repeating unit is disposed between a chip (105), e.g. a flip-chip, and a functional layer (101), e.g. a printed circuit board, electrically connected to the chip by electrically conducting interconnects (107). The oligomer may be crosslinked.

A dicing die bonding film according to the present invention includes: a dicing tape including a base layer and an adhesive layer laminated on the base layer; and a die bonding layer laminated on the adhesive layer of the deicing tape; the die bonding layer including a matrix resin, a thiol-group-containing compound, and conductive particles.

A dicing die bonding film according to the present invention includes: a dicing tape including a base layer and an adhesive layer laminated on the base layer; and a die bonding layer laminated on the adhesive layer of the deicing tape; the die bonding layer including a matrix resin, a thiol-group-containing compound, and conductive particles.

An emission enhancement structure having at least one energy augmentation structure; and an energy converter capable of receiving energy from an energy source, converting the energy and emitting therefrom a light of a different energy than the received energy. The energy converter is disposed in a vicinity of the at least one energy augmentation structure such that the emitted light is emitted with an intensity larger than if the converter were remote from the at least one energy augmentation structure. Also described are various uses for the energy emitters, energy augmentation structures and energy collectors in a wide array of fields.