摘要:
A method for forming a deposited film containing microcrystalline silicon on a moving substrate by plasma-enhanced CVD includes forming a deposited film containing microcrystalline silicon on a moving substrate by plasma-enhanced CVD under conditions such that when a deposited film having a thickness of 300 nm or more is formed on a substrate while the substrate is in a stationary state, an area of the microcrystalline silicon region in which an intensity of Raman scattering attributed to a crystalline substance in the deposited film is equal to or higher than three times an intensity of Raman scattering attributed to an amorphous is 50% or more of the total area based on the area of the microcrystalline silicon region and the area of a region composed of the amorphous.
摘要:
A method for forming a deposited film containing microcrystalline silicon on a moving substrate by plasma-enhanced CVD includes forming a deposited film containing microcrystalline silicon on a moving substrate by plasma-enhanced CVD under conditions such that when a deposited film having a thickness of 300 nm or more is formed on a substrate while the substrate is in a stationary state, an area of the microcrystalline silicon region in which an intensity of Raman scattering attributed to a crystalline substance in the deposited film is equal to or higher than three times an intensity of Raman scattering attributed to an amorphous is 50% or more of the total area based on the area of the microcrystalline silicon region and the area of a region composed of the amorphous.
摘要:
A photovoltaic element comprising a substrate and a multi-layered semiconductor active layer having a pin junction structure disposed on said substrate, said multi-layered semiconductor layer comprising a non-single crystal semiconductor layer of n- or p-type, a non-single crystal i-type semiconductor layer and a non-single crystal semiconductor layer of p- or n-type being stacked in this order from the substrate side, characterized in that said i-type semiconductor layer comprises a three-layered structure comprising a non-single crystal layer (b) formed by means of a microwave plasma CVD process interposed between a pair of non-single crystal layers (a) and (c) each formed by means of a RF plasma CVD process, and said i-type layer (b) is a non-single crystal i-type layer formed by means of the microwave plasma process from a mixture of a silane series gas not containing chlorine atom(s), a chlorine-containing raw material gas in an amount of 10% or less of the total amount of the chlorine-free silane series gas and the chlorine-containing raw material gas, and hydrogen gas.
摘要:
A silicon based film is provided which comprises a crystal phase formed on a substrate with a surface shape represented by a function f, wherein the silicon-based film is formed on a substrate with a surface shape having a standard deviation of an inclination arctan (df/dx) from 15° to 55° within the range of a sampling length dx from 20 nm to 100 nm. Raman scattering strength resulting from an amorphous component in the silicon-based film is not more than a Raman scattering strength resulting from a crystalline component. A difference between a spacing in a direction parallel to a principal surface of the substrate and a spacing of a single crystal silicon is within the range of 0.2% to 1.0% with regard to the spacing of the single crystal silicon.
摘要:
Communication between users not accessing a shared virtual reality space at the same time is realized. A client terminal sends a calling card and a mail. A hard disk drive of a mail server holds the calling card and the mail. When a user to whom the calling card and the mail are to be sent accesses the shared virtual reality space, the mail server transfers the calling card and the mail to the client terminal.
摘要:
To allow the user who wants to use three-dimensional virtual reality spaces to easily select a desired three-dimensional virtual reality space. When the browser is started with data about a three-dimensional virtual reality space stored in a predetermined directory, this predetermined directory is searched. According to the search result, an entry room in which three-dimensional icons representing three-dimensional virtual reality spaces are arranged is generated and displayed. The three-dimensional icons arranged in the entry room are linked to the data of the corresponding three-dimensional virtual reality spaces. When user clicks on a desired three-dimensional icon, the corresponding three-dimensional virtual reality space is displayed.
摘要:
A photovoltaic cell comprising a substrate, a back reflector, a transparent conductive layer, and a photoelectric conversion layer, wherein the transparent conductive layer has holes on the surface, is provided. Additionally, a photovoltaic cell comprising a substrate, a back reflector, a transparent conductive layer, and a photoelectric conversion layer, wherein diffuse reflectance of the back reflector is 3 to 50%, is provided. According to the above-described structures, processability, yield and reliability of the photovoltaic cell can be improved, while photoelectric conversion efficiency is maintained at a high level due to back-surface diffuse reflection.
摘要:
A photovoltaic device of the present invention has a non-single-crystal semiconductor. A layer underlying the non-single-crystal semiconductor has a polycrystalline structure. Individual grains of the polycrystal exposed in the surface of the underlying layer have smooth surfaces. The surface of the underlying layer has a step along the grain boundaries of the polycrystal, or a protrusion or recess at the grain boundaries. Alternatively, polycrystal grains having rough surfaces and polycrystal grains having smooth surfaces commonly exist in the surface of the polycrystalline layer. The polycrystalline layer may be a substrate of the photovoltaic device. The present invention, by virtue of the use of such a polycrystalline layer, provides a highly reliable and efficient thin-film photovoltaic device which enhances light absorption by the semiconductor layer and which can be produced at a high yield even at a practically adoptable low cost, while eliminating deficiencies of known arts in regard to workability, yield and durability.
摘要:
In a microwave plasma chemical vapor deposition apparatus for forming a functional deposited film on a substrate which comprises a substantially enclosed film-forming chamber comprising a circumferential wall having an end portion thereof hermetically provided with a microwave introducing window to which a waveguide extending from a microwave power source is connected, said film-forming chamber having a discharge space for causing plasma discharge of resulting in forming a deposited film on a substrate, said substrate being positioned on a substrate holder arranged in said film-forming chamber and said film-forming chamber being provided with means for supplying a film-forming raw material gas into said discharge space and means for evacuating said film-forming chamber, the improvement which comprises a dielectric sheet being movably placed on the surface of said microwave introducing window situated in said film-forming chamber in a state that said dielectric sheet is face to face contacted with said surface of the microwave introducing window.
摘要:
An object of the present invention is to provide a photovoltaic device and a method of producing the photovoltaic device which can prevent recombination of photo-excited carriers and which permits increases in the open circuit voltage and the carrier range. The photovoltaic device of the present invention has a laminate structure composed of at least a p-type layer of a silicon non-single crystal semiconductor, a photoactive layer having a plurality of i-type layers, and an n-type layer. The photoactive layer has a laminate structure composed of a first i-type layer deposited on the side of the n-type layer by a microwave plasma CVD process, and a second i-type layer deposited on the side of said the p-type layer by an RF plasma CVD process. The first i-type layer deposited by the microwave plasma CVD process contains at least silicon and carbon atoms, and has a minimum band gap between the center thereof and the p-type layer, and the second i-type layer deposited by the RF plasma CVD process contains at least silicon atoms and has a thickness of 30 nm or less.