An organic material with a porous interpenetrating network and an amount of inorganic material at least partially distributed within the porosity of the organic material is disclosed. A method of producing the organic-inorganic thin films and devices therefrom comprises seeding with nanoparticles and depositing an amorphous material on the nanoparticles.

Conventionally, there was a need to add a large amount of electroconductive particles for improving conductivity, but when the electroconductive particles were added too much, initial viscosity was increased, and at the same time, it was difficult to stabilize preservation stability. However, conductivity can be improved without adding a large amount of the electroconductive particles by selecting a monomer, and at the same time, preservation stability can be stabilized by using certain electroconductive particles. A thermocurable electroconductive adhesive including components (A) to (D): component (A): an oligomer having a (meth)acryl group; component (B): a monomer having one methacryl group in a molecule; component (C): an organic peroxide having a specific structure; and component (D): electroconductive particles which are surface-treated with a stearic acid.

A single-walled carbon nanotube composition includes single-walled carbon nanotubes substantially enriched in semiconducting single-walled carbon nanotubes in association with a polymer having one or more oligoether side groups. The oligoether side groups render the composition dispersable in polar organic solvents, for example alkyl carbitols, permitting formulation of ink compositions containing single-walled carbon nanotubes substantially enriched in semiconducting single-walled carbon nanotubes. Such ink compositions may be readily printed using common printing methods, such as inkjet, flexography and gravure printing.

The invention provides an elastic conductor which is excellent in stretchability and hardly causes a decrease in conductivity even when stretched. The elastic conductor includes an elastomer and two types of conductive particles, wherein the two types of conductive particles are flake-like particles and nanoparticles, and the conductive particles are dispersed throughout the elastomer.

A liquid composition. The liquid composition comprises (i) particles comprising a complex of a polythiophene and a polyanion, (ii) at least one tetraalkyl orthosilicate, (iii) at least one solvent, and (iv) gallic acid, at least one derivative of gallic acid or a mixture thereof. Also provided are a process for the preparation of a liquid composition, a liquid composition obtainable by such a process, a process for the preparation of a layered body, the layered body obtainable by such a process, a layered body and the use of a liquid composition.

There is provided a conductive material in which, even when a conductive material is left for a certain period of time, solder of conductive particles can be efficiently placed on an electrode, and, in addition, even if an electrode width and an inter-electrode width are narrow, occurrence of migration can be effectively suppressed, and generation of voids can be effectively suppressed. The conductive material according to the present invention contains a plurality of conductive particles in which an outer surface portion of a conductive portion comprises solder, a thermosetting compound, an acid anhydride thermosetting agent, and an organophosphorus compound.

There is provided a conductive material in which, even when a conductive material is left for a certain period of time, solder of conductive particles can be efficiently placed on an electrode, and, in addition, even if an electrode width and an inter-electrode width are narrow, occurrence of migration can be effectively suppressed, and generation of voids can be effectively suppressed. The conductive material according to the present invention contains a plurality of conductive particles in which an outer surface portion of a conductive portion comprises solder, a thermosetting compound, an acid anhydride thermosetting agent, and an organophosphorus compound.

A method for producing solder particles, which includes: a preparation step wherein a base material that has a plurality of recesses and solder fine particles are prepared; an accommodation step wherein at least some of the solder fine particles are accommodated in the recesses; and a fusing step wherein the solder fine particles accommodated in the recesses are fused, thereby forming solder particles within the recesses. With respect to this method for producing solder particles, the average particle diameter of the solder particles is from 1 μm to 30 μm; and the C.V. value of the solder particles is 20% or less.

Disclosed are novel organoborane compositions of Formula (I), (II) or (III),

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wherein R.sup.1, R.sup.2, R.sup.3, R′, R″, n, n′, n″, m, m′, and m″ are defined hereinabove. Also disclosed is a method of using said compositions for electrolytic media in lithium rechargeable batteries, including lithium-ion or lithium-air rechargeable batteries. Also disclosed are compositions containing said Formula (I), (II) and (III) compounds with lithium salts, useful as electrolytic media or matrices.

There is provided an inexpensive silver particle dispersing solution being usable as a slurry for ink jet, a method for producing the same, and a method for producing a conductive film using the silver particle dispersing solution. In a silver particle dispersing solution containing a silver powder and a solvent, the silver powder has an average primary particle diameter (D.sub.SEM) of 0.15 to 0.5 μm, and the ratio (D.sub.50/D.sub.SEM) of a particle diameter (D.sub.50), which corresponds to 50% of accumulation in volume-based cumulative distribution of the silver powder, to the average primary particle diameter (D.sub.SEM) is not less than 1.7, the silver powder having a fatty acid adhered to the surface thereof, and the solvent containing a monohydric higher alcohol having a carbon number of 6 to 12, butyl carbitol or butyl carbitol acetate as the main component thereof.