Patents by Inventor Shinji Nunotani
Shinji Nunotani has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Publication number: 20130248912Abstract: According to one embodiment, a semiconductor light emitting element includes a stacked body and an optical layer. The stacked body has a major surface and includes a light emitting layer. The optical layer is in contact with the surface and includes a dielectric body, first particles, and second particles. The optical layer includes a first region including the dielectric body and the first particles and does not include the second particles and a second region including the dielectric body and the second particles. A sphere-equivalent diameter of the first particle is not less than 1 nanometer and not more than 100 nanometers. A sphere-equivalent diameter of the second particle is more than 300 nanometers and less than 1000 nanometers. An average refractive index of the first region is larger than a refractive index of the stacked body and smaller than a refractive index of the second particle.Type: ApplicationFiled: March 25, 2013Publication date: September 26, 2013Applicant: KABUSHIKI KAISHA TOSHIBAInventors: Kenji NAKAMURA, Akira Fujimoto, Tsutomu Nakanishi, Ryota Kitagawa, Koji Asakawa, Takanobu Kamakura, Shinji Nunotani
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Publication number: 20130240927Abstract: According to one embodiment, a semiconductor light emitting element includes: a support substrate; a bonding layer provided on the support substrate; an LED layer provided on the bonding layer; and a buffer layer softer than the bonding layer. The buffer layer is placed in one of between the support substrate and the bonding layer and between the bonding layer and the LED layer.Type: ApplicationFiled: September 14, 2012Publication date: September 19, 2013Applicant: KABUSHIKI KAISHA TOSHIBAInventors: Shinji NUNOTANI, Yasuhiko AKAIKE, Yoshinori NATSUME, Kazuyoshi FURUKAWA
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Patent number: 8519411Abstract: A semiconductor light emitting device includes an active layer, an electrode formed above the active layer, a current spreading layer formed between the active layer and the electrode, having n-type conductivity, having a larger bandgap energy than the active layer, and spreading electrons injected from the electrode in the plane of the active layer, and a surface processed layer formed on the current spreading layer, having a larger bandgap energy than the active layer, and having an uneven surface region with a large number of concave-convex structures. The electrode is not formed on the uneven surface region. The conduction band edge energy from the Fermi level of the surface processed layer is higher than that of the current spreading layer.Type: GrantFiled: July 11, 2008Date of Patent: August 27, 2013Assignee: Kabushiki Kaisha ToshibaInventors: Yukie Nishikawa, Shinji Nunotani
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Patent number: 8450824Abstract: According to one embodiment, an optically transmissive metal electrode includes a plurality of first and second metal wires. The first metal wires are disposed along a first direction, and extend along a second direction intersecting the first direction. The second metal wires are disposed along a third direction parallel with a plane including the first and second directions and intersecting the first direction, contact the first metal wires, and extend along a fourth direction parallel with the plane and intersecting the third direction. A first pitch between centers of the first metal wires is not more than a shortest wavelength in a waveband including visible light. A second pitch between centers of the second metal wires exceeds a longest wavelength in the waveband. A thickness of the first and second metal wires along a direction vertical to the plane is not more than the shortest wavelength.Type: GrantFiled: February 27, 2012Date of Patent: May 28, 2013Assignee: Kabushiki Kaisha ToshibaInventors: Kenji Nakamura, Akira Fujimoto, Tsutomu Nakanishi, Ryota Kitagawa, Shinji Nunotani, Takanobu Kamakura
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Publication number: 20130075762Abstract: According to one embodiment, an optically transmissive metal electrode includes a plurality of first and second metal wires. The first metal wires are disposed along a first direction, and extend along a second direction intersecting the first direction. The second metal wires are disposed along a third direction parallel with a plane including the first and second directions and intersecting the first direction, contact the first metal wires, and extend along a fourth direction parallel with the plane and intersecting the third direction. A first pitch between centers of the first metal wires is not more than a shortest wavelength in a waveband including visible light. A second pitch between centers of the second metal wires exceeds a longest wavelength in the waveband. A thickness of the first and second metal wires along a direction vertical to the plane is not more than the shortest wavelength.Type: ApplicationFiled: February 27, 2012Publication date: March 28, 2013Inventors: Kenji NAKAMURA, Akira Fujimoto, Tsutomu Nakanishi, Ryota Kitagawa, Shinji Nunotani, Takanobu Kamakura
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Publication number: 20130075771Abstract: According to one embodiment, a semiconductor light emitting device includes first and second electrode layers, a and second semiconductor layers, a light emitting layer and a first intermediate layer. The first electrode layer has a metal portion having through-holes. The second electrode layer is stacked with the first electrode layer along a stacked direction, and light-reflective. The first semiconductor layer is provided between the first and second electrode layers, and has a first conductivity type. The second semiconductor layer is provided between the first semiconductor layer and the second electrode layer, and has a second conductivity type. The light emitting layer is provided between the first and second semiconductor layers. The first intermediate layer is provided between the second semiconductor layer and the second electrode layer, transmissive to light emitted from the light emitting layer, and includes first contact portions and a first non-contact portion.Type: ApplicationFiled: March 5, 2012Publication date: March 28, 2013Inventors: Akira FUJIMOTO, Tsutomu NAKANISHI, Ryota KITAGAWA, Kenji NAKAMURA, Shinji NUNOTANI, Takanobu KAMAKURA
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Publication number: 20130075778Abstract: According to one embodiment, a light-transmitting metal electrode includes a metal layer. The metal layer is provided on a major surface of a member and includes a metal nanowire and a plurality of openings formed with the metal nanowire. The thin layer includes a plurality of first straight line parts along a first direction and a plurality of second straight line parts along a direction different from the first direction. A maximum length of the first line parts along the first direction and a maximum length of the second line parts along the direction different from the first direction are not more than a wave length of visible light. A ratio of an area of the metal layer viewed in a normal direction of the surface to an area of the metal layer viewed in the normal direction is more than 20% and not more than 80%.Type: ApplicationFiled: February 28, 2012Publication date: March 28, 2013Inventors: Tsutomu NAKANISHI, Akira FUJIMOTO, Ryota KITAGAWA, Kumi MASUNAGA, Kenji NAKAMURA, Koji ASAKAWA, Shinji NUNOTANI, Takanobu KAMAKURA
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Publication number: 20120305964Abstract: According to one embodiment, a semiconductor light emitting element includes a light emitting element includes a semiconductor stacked body including a light emitting layer, a reflection layer, a support substrate, a first bonding electrode and a second bonding electrode. The reflection layer is made of a metal and has a first surface and a second surface opposite to the first surface. The semiconductor stacked body is provided on a side of the first surface of the reflection layer. The first bonding electrode is provided between the second surface and the support substrate and includes a convex portion projected toward the support substrate and a bottom portion provided around the convex portion in plan view. The second bonding electrode includes a concave portion fitted in the convex portion of the first bonding electrode and is capable of bonding the support substrate and the first bonding electrode.Type: ApplicationFiled: March 15, 2012Publication date: December 6, 2012Applicant: Kabushiki Kaisha ToshibaInventors: Yasuhiko AKAIKE, Yoshinori NATSUME, Shinji NUNOTANI, Kazuyoshi FURUKAWA
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Publication number: 20120228654Abstract: According to one embodiment, a semiconductor light emitting device includes a structure including a first semiconductor layer of a first conductivity type, a second semiconductor layer of a second conductivity type and a light emitting layer provided between the first semiconductor layer and the second semiconductor layer. The device also includes an electrode layer provided on the second semiconductor layer side of the structure. The electrode layer includes a metal portion with a thickness of not less than 10 nanometers and not more than 100 nanometers. A plurality of openings pierces the metal portion, each of the openings having an equivalent circle diameter of not less than 10 nanometers and not more than 5 micrometers. The device includes an inorganic film providing on the metal portion and inner surfaces of the openings, the inorganic film having transmittivity with respect to light emitted from the light emitting layer.Type: ApplicationFiled: August 30, 2011Publication date: September 13, 2012Applicant: KABUSHIKI KAISHA TOSHIBAInventors: Akira FUJIMOTO, Ryota KITAGAWA, Kumi MASUNAGA, Kenji NAKAMURA, Tsutomu NAKANISHI, Koji Asakawa, Takanobu KAMAKURA, Shinji NUNOTANI
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Publication number: 20120223348Abstract: According to one embodiment, a semiconductor light emitting device includes a first semiconductor layer of a first conductivity type, a second semiconductor layer of a second conductivity type and a light emitting layer provided between the first semiconductor layer and the second semiconductor layer. The device also includes a first electrode layer having electrical continuity with the first semiconductor layer and a second electrode layer provided on the second semiconductor layer, the second electrode layer including a metal portion having a thickness not less than 10 nanometers and not more than 100 nanometers along a direction from the first semiconductor layer to the second semiconductor layer.Type: ApplicationFiled: August 30, 2011Publication date: September 6, 2012Applicant: KABUSHIKI KAISHA TOSHIBAInventors: Kumi MASUNAGA, Ryota KITAGAWA, Akira FUJIMOTO, Koji ASAKAWA, Takanobu KAMAKURA, Shinji NUNOTANI
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Publication number: 20120223355Abstract: According to one embodiment, a semiconductor light emitting device includes a structure, a first electrode layer, and a second electrode layer. The structure includes a first semiconductor layer, a second semiconductor layer and a light emitting layer provided between the first semiconductor layer and the second semiconductor layer. The first electrode layer is provided on the first semiconductor layer side of the structure. The first electrode layer is made of metal and contains a portion contacting the first semiconductor layer. The second electrode layer is provided on the second semiconductor layer side of the structure. The second electrode layer has a metal portion with a thickness of not less than 10 nanometers and not more than 50 nanometers, and a plurality of openings piercing the metal portion, each of the openings having an equivalent circle diameter of not less than 10 nanometers and not more than 5 micrometers.Type: ApplicationFiled: August 31, 2011Publication date: September 6, 2012Applicant: Kabushiki Kaisha ToshibaInventors: Koji Asakawa, Akira Fujimoto, Ryota Kitagawa, Kumi Masunaga, Takanobu Kamakura, Shinji Nunotani
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Publication number: 20120132948Abstract: According to one embodiment, a semiconductor light emitting device includes a light emitter, a first and a second electrode layer, a pad electrode and an auxiliary electrode portion. The emitter includes a first semiconductor layer provided on one side of the emitter, a second semiconductor layer provided on one other side of the emitter, and a light emitting layer provided between the first and second semiconductor layers. The first electrode layer is provided on opposite side of the second semiconductor layer from the first semiconductor layer and includes a metal layer and a plurality of apertures penetrating through the metal layer. The second electrode layer is electrically continuous with the first semiconductor layer. The pad electrode is electrically continuous with the first electrode layer. The auxiliary electrode portion is electrically continuous with the first electrode layer and extends in a second direction orthogonal to the first direction.Type: ApplicationFiled: September 12, 2011Publication date: May 31, 2012Applicant: KABUSHIKI KAISHA TOSHIBAInventors: Shinji Nunotani, Masaaki Ogawa, Koji Asakawa, Ryota Kitagawa, Akira Fujimoto, Takanobu Kamakura
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Publication number: 20120070958Abstract: In a method of manufacturing a semiconductor device of an embodiment, at room temperature, a first substrate including a semiconductor laminate body is adhered to a second substrate with a smaller thermal expansion coefficient than that of the first substrate. Then, the first substrate and the second substrate are heated with the first substrate heated at a temperature higher than that of the second substrate. Thus the first substrate and the second substrate are bonded together. The first substrate is either a sapphire substrate including a nitride-based semiconductor layer, or a GaAs substrate including a phosphorus-based semiconductor layer. The second substrate is a silicon substrate, a GaAs substrate, a Ge substrate, or a metal substrate.Type: ApplicationFiled: September 21, 2011Publication date: March 22, 2012Applicant: KABUSHIKI KAISHA TOSHIBAInventors: Kazuyoshi Furukawa, Yoshinori Natsume, Yasuhiko Akaike, Shinji Nunotani, Wakana Nishiwaki, Masaaki Ogawa, Toru Kita, Hidefumi Yasuda
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Publication number: 20120061640Abstract: A semiconductor light emitting device includes a first semiconductor layer of a first conductivity type, a first electrode layer, a second semiconductor layer of a second conductivity type, a light emitting layer and a second electrode layer. The first electrode layer includes a metal portion having a plurality of opening portions. The opening portions have an equivalent circle diameter being not less than 10 nanometers and not more than 50 micrometers. The second semiconductor layer is provided between the first semiconductor layer and the first electrode layer and includes a first portion in contact with the first electrode layer. The first portion has an impurity concentration of not less than 1×1019/cubic centimeter and not more than 1×1021/cubic centimeter. The light emitting layer is provided between the first semiconductor layer and the second semiconductor layer. The second electrode layer is connected to the first semiconductor layer.Type: ApplicationFiled: March 1, 2011Publication date: March 15, 2012Applicant: Kabushiki Kaisha ToshibaInventors: Ryota Kitagawa, Akira Fujimoto, Koji Asakawa, Takanobu Kamakura, Shinji Nunotani, Masaaki Ogawa
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Publication number: 20120061712Abstract: A semiconductor light emitting device includes a first semiconductor layer of a first conductivity type, a first electrode layer, a light emitting layer, a second semiconductor layer, a third semiconductor layer and a second electrode layer. The first electrode layer includes a metal portion having a plurality of opening portions. The opening portions penetrate the metal portion and have an equivalent circle diameter of a shape of the opening portions. The light emitting layer is between the first semiconductor layer and the first electrode layer. The second semiconductor layer of a second conductivity type is between the light emitting layer and the first electrode layer. The third semiconductor layer of a second conductivity type is between the second semiconductor layer and the first electrode layer. The second electrode layer is connected to the first semiconductor layer.Type: ApplicationFiled: March 1, 2011Publication date: March 15, 2012Applicant: Kabushiki Kaisha ToshibaInventors: Kumi Masunaga, Ryota Kitagawa, Eishi Tsutsumi, Akira Fujimoto, Koji Asakawa, Takanobu Kamakura, Shinji Nunotani
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Publication number: 20120056232Abstract: A semiconductor light emitting device includes a structural body, a first electrode layer, an intermediate layer and a second electrode layer. The structural body includes a first semiconductor layer of first conductivity type, a second semiconductor layer of second conductivity type, and a light emitting layer between the first and second semiconductor layers. The first electrode layer is on a side of the second semiconductor layer opposite to the first semiconductor layer; the first electrode layer includes a metal portion and plural opening portions piercing the metal portion along a direction from the first semiconductor layer toward the second semiconductor layer, having an equivalent circular diameter not less than 10 nanometers and not more than 5 micrometers. The intermediate layer is between the first and second semiconductor layers in ohmic contact with the second semiconductor layer. The second electrode layer is electrically connected to the first semiconductor layer.Type: ApplicationFiled: March 1, 2011Publication date: March 8, 2012Applicant: Kabushiki Kaisha ToshibaInventors: Akira Fujimoto, Koji Asakawa, Ryota Kitagawa, Takanobu Kamakura, Shinji Nunotani, Eishi Tsutsumi, Masaaki Ogawa
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Publication number: 20120056155Abstract: A semiconductor light emitting device includes a structural body, a first electrode layer, and a second electrode layer. The structural body includes a first semiconductor layer of a first conductivity type, a second semiconductor layer of a second conductivity type, and a light emitting layer between the first semiconductor layer and the second semiconductor layer. The first electrode layer includes a metal portion, a plurality of first opening portions, and at least one second opening portion. The metal portion has a thickness of not less than 10 nanometers and not more than 200 nanometers along a direction from the first semiconductor layer toward the second semiconductor layer. The plurality of first opening portions each have a circle equivalent diameter of not less than 10 nanometers and not more than 1 micrometer. The at least one second opening portion has a circle equivalent diameter of more than 1 micrometer and not more than 30 micrometers.Type: ApplicationFiled: March 1, 2011Publication date: March 8, 2012Applicant: Kabushiki Kaisha ToshibaInventors: Koji Asakawa, Akira Fujimoto, Ryota Kitagawa, Takanobu Kamakura, Shinji Nunotani, Eishi Tsutsumi, Masaaki Ogawa
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Publication number: 20120056222Abstract: A semiconductor light emitting device includes a first semiconductor layer of a first conductivity type, a second semiconductor layer of a second conductivity type, a light emitting layer, a first electrode layer, and a second electrode layer. The light emitting layer is between the first semiconductor layer and the second semiconductor layer. The first electrode layer is on a side of the second semiconductor layer opposite to the first semiconductor layer. The first electrode layer includes a metal portion and a plurality of opening portions piercing the metal portion along a direction from the first semiconductor layer toward the second semiconductor layer. The metal portion contacts the second semiconductor layer. An equivalent circular diameter of a configuration of the opening portions as viewed along the direction is not less than 10 nanometers and not more than 5 micrometers.Type: ApplicationFiled: March 1, 2011Publication date: March 8, 2012Applicant: KABUSHIKI KAISHA TOSHIBAInventors: Ryota KITAGAWA, Akira FUJIMOTO, Koji ASAKAWA, Eishi TSUTSUMI, Takanobu KAMAKURA, Shinji NUNOTANI, Masaaki OGAWA
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Publication number: 20090014734Abstract: A semiconductor light emitting device includes an active layer, an electrode formed above the active layer, a current spreading layer formed between the active layer and the electrode, having n-type conductivity, having a larger bandgap energy than the active layer, and spreading electrons injected from the electrode in the plane of the active layer, and a surface processed layer formed on the current spreading layer, having a larger bandgap energy than the active layer, and having an uneven surface region with a large number of concave-convex structures. The electrode is not formed on the uneven surface region. The conduction band edge energy from the Fermi level of the surface processed layer is higher than that of the current spreading layer.Type: ApplicationFiled: July 11, 2008Publication date: January 15, 2009Applicant: KABUSHIKI KAISHA TOSHIBAInventors: Yukie Nishikawa, Shinji Nunotani
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Patent number: 6791117Abstract: A semiconductor light emitting device is disclosed, which comprises a substrate, and a multi-layer semiconductor film formed on the substrate, the multi-layer semiconductor film including a plurality of semiconductor layers overlaid on the substrate, the semiconductor layers having a light emission layer for emitting a light, wherein the light is picked up at a first side of the multi-layer semiconductor film, which is a side opposite to the substrate, wherein a pattern having a light pickup surface is formed on a light emitting portion of the multi-layer semiconductor film, the light pickup surface is in a (111) plane or a plane in the vicinity of the (111) plane, and an unevenness is formed on the light pickup surface.Type: GrantFiled: January 14, 2003Date of Patent: September 14, 2004Assignee: Kabushiki Kaisha ToshibaInventors: Shunji Yoshitake, Koichi Takahashi, Shinji Nunotani, Kenichi Ohashi