Inventors list |
Assignees list |
Classification tree browser |
Top 100 Inventors |
Top 100 Assignees |
Amako
Katsuya Amako, Kanagawa JP
| Patent application number | Description | Published |
|---|---|---|
| 20090220770 | POLYMERIZABLE COMPOSITION, HIGH-REFRACTIVE-INDEX RESIN COMPOSITION, AND OPTICAL MEMBER MADE OF THE SAME - The invention can provide a high-refractive-index resin composition containing particles, more particularly, a resin composition having a high refractive index and usable in optical applications including coatings and lenses. The high-refractive-index resin composition of the invention is a high-refractive-index resin composition obtained by polymerizing a polymerizable composition containing particles coated with a surface-treating agent and having an average particle diameter of 10 nm or smaller and a polymerizable monomer, wherein the content of the particles excluding the surface-treating agent, X (% by mass), and the refractive index of the high-refractive-index resin composition, Y (n | 09-03-2009 |
Masaaki Amako, Chiba JP
| Patent application number | Description | Published |
|---|---|---|
| 20080303421 | Electrophosphorescent Organic Light Emitting Diode Formed Using Solvent Soluble Materials - The present invention provides an electrophosphorescent organic light-emitting diode (OLED). The electrophosphorescent OLED includes a substrate having a first opposing surface and a second opposing surface, a first electrode layer overlying the first opposing surface, and a light-emitting element overlying the first electrode layer. The light emitting element includes a hole injection layer and a phosphorescent emissive layer. The hole injection layer is formed of a crosslinked polysiloxane, which includes at least one siloxane unit R—Y—Siθ3/2 having at least one aromatic amine group (R) and at least one divalent organic group (Y). The aromatic amine group includes at least one of a carbazolyl group, a substituted carbazolyl group, a triarylamine group, and a substituted triarylamine group. | 12-11-2008 |
| 20090130463 | Coated Substrates and Methods for their Preparation - Coated substrates comprising an inorganic barrier coating and an interfacial coating, wherein the interfacial coating comprises a cured product of a silicone resin having silicon-bonded radiation-sensitive groups; and methods of preparing the coated substrates. | 05-21-2009 |
Yoichi Amako, Nigata JP
| Patent application number | Description | Published |
|---|---|---|
| 20100066476 | Iron Core For Stationary Apparatus And Stationary Apparatus - Magnetic flux in a magnetic flux distribution inside a wound iron core for a stationary apparatus is mal-distributed toward the inner periphery side where the magnetic path of a laminated magnetic steel sheet is short with respect to the total lamination thickness and magnetic resistance is small and the inner periphery side on which magnetic flux is concentrated has a high magnetic flux density and increased iron loss, and therefore magnetic steel sheets of different magnetic characteristics are disposed at an arbitrary lamination ratio to make uniform the magnetic flux distribution inside the same wound iron core. In order to make uniform the magnetic flux distribution inside the wound iron core for a stationary apparatus, such a structure is adopted that a magnetic steel sheet having a magnetic characteristic inferior to that on the outer periphery side is disposed on the inner periphery side having a shorter magnetic path and smaller magnetic resistance and a magnetic steel sheet having a magnetic characteristic superior to that on the inner periphery side is disposed on the outer periphery side having a longer magnetic path and greater magnetic resistance to thereby make uniform the magnetic flux distribution in a sectional area of the iron core. | 03-18-2010 |
Yoichi Amako, Niigata JP
| Patent application number | Description | Published |
|---|---|---|
| 20080272876 | Iron core for stationary apparatus and stationary apparatus - Magnetic flux in a magnetic flux distribution inside a wound iron core for a stationary apparatus is mal-distributed toward the inner periphery side where the magnetic path of a laminated magnetic steel sheet is short with respect to the total lamination thickness and magnetic resistance is small and the inner periphery side on which magnetic flux is concentrated has a high magnetic flux density and increased iron loss, and therefore magnetic steel sheets of different magnetic characteristics are disposed at an arbitrary lamination ratio to make uniform the magnetic flux distribution inside the same wound iron core. In order to make uniform the magnetic flux distribution inside the wound iron core for a stationary apparatus, such a structure is adopted that a magnetic steel sheet having a magnetic characteristic inferior to that on the outer periphery side is disposed on the inner periphery side having a shorter magnetic path and smaller magnetic resistance and a magnetic steel sheet having a magnetic characteristic superior to that on the inner periphery side is disposed on the outer periphery side having a longer magnetic path and greater magnetic resistance to thereby make uniform the magnetic flux distribution in a sectional area of the iron core. | 11-06-2008 |