摘要:
The present invention provides a metal electrode transparent to light. The metal electrode comprises a transparent substrate and a metal electrode layer composed of a metal part and plural openings. The metal electrode layer continues without breaks, and 90% or more of the metal part continues linearly without breaks by the openings in a straight length of not more than ⅓ of the visible wavelength to use in 380 nm to 780 nm. The openings have an average diameter in the range of not less than 10 nm and not more than ⅓ of the wavelength of incident light, and the pitches between the centers of the openings are not less than the average diameter and not more than ½ of the wavelength of incident light. The metal electrode layer has a thickness in the range of not less than 10 nm and not more than 200 nm.
摘要:
The present invention provides a metal electrode transparent to light. The metal electrode comprises a transparent substrate and a metal electrode layer composed of a metal part and plural openings. The metal electrode layer continues without breaks, and 90% or more of the metal part continues linearly without breaks by the openings in a straight length of not more than ⅓ of the visible wavelength to use in 380 nm to 780 nm. The openings have an average diameter in the range of not less than 10 nm and not more than ⅓ of the wavelength of incident light, and the pitches between the centers of the openings are not less than the average diameter and not more than ½ of the wavelength of incident light. The metal electrode layer has a thickness in the range of not less than 10 nm and not more than 200 nm.
摘要:
The present invention provides a solar cell comprising a laminate of a photoelectric conversion layer, a metal porous membrane and a refractive index adjusting layer. The metal porous membrane is positioned on the light-incident side, is directly in contact with the photoelectric conversion layer, and has plural openings bored though the membrane. The refractive index adjusting layer covers at least a part of the surface of the metal porous membrane and of the inner surfaces of the openings, and has a refractive index of 1.35 to 4.2 inclusive. If adopting a nano-fabricated metal membrane as an electrode, the present invention enables to provide a solar cell capable of realizing efficient photoelectric conversion by use of electric field-enhancement effect.
摘要:
The present invention provides a photoelectric conversion element having high efficiency in propagating carrier excitation by use of enhanced electric fields. The photoelectric conversion element comprises a photoelectric conversion layer including two or more laminated semiconductor layers placed between two electrode layers, and is characterized by having an electric field enhancing layer placed between the semiconductor layers in the photoelectric conversion layer. The electric field enhancing layer is provided with a metal-made minute structure, and the minute structure is, for example, a porous membrane or a group of nano-objects such as very small spheres.
摘要:
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.
摘要:
The present invention provides a light transmission type solar cell excellent in both power generation efficiency and light transparency, and also provides a method for producing that solar cell. The solar cell of the present invention comprises a photoelectric conversion layer, a light-incident side electrode layer, and a counter electrode layer. The incident side electrode layer is provided with plural openings bored through the layer, and has a thickness of 10 nm to 200 nm. Each of the openings occupies an area of 80 nm2 to 0.8 μm2, and the opening ratio is in the range of 10% to 66%. The transmittance of the whole cell is 5% or more at 700 nm wavelength. The incident side electrode layer can be formed by etching fabrication with a stamper. In the etching fabrication, a mono-particle layer of fine particles or a dot pattern formed by self-assembled block copolymer can be used as a mask.