Abstract: Disclosed is a solar cell module including a first solar cell unit including a plurality of solar cells and a plurality of condensing layers, which are arranged alternately, a second solar cell unit including a plurality of solar cells and a plurality of condensing layers, which are arranged alternately, and each of the plurality of solar cells of the first solar cell unit and the second solar cell unit includes a first electrode disposed on one side thereof and a second electrode disposed on an opposite side thereof, whereby a visibility, by which the light passes through the solar cell module, is increased by including the plurality of solar cells and the plurality of condensing layers, through which a visual ray may pass.

Abstract: Disclosed in the present invention is a solar module, comprising: a frame including at least three sidewalls; first solar cells each having both ends coupled to each of two sidewalls of the frame; and second solar cells intersecting the first solar cells and coupled to each of the two sidewalls of the frame.

Abstract: Disclosed is a color solar cell module including a transparent substrate, a plurality of solar cells disposed on one side of the transparent substrate and each having a light receiving part, and a color layer disposed on a surface of each of the plurality of solar cells on an opposite side surface of the light receiving part.

Abstract: Disclosed is a solar cell module including a first solar cell unit including a plurality of solar cells and a plurality of condensing layers, which are arranged alternately, a second solar cell unit including a plurality of solar cells and a plurality of condensing layers, which are arranged alternately, and each of the plurality of solar cells of the first solar cell unit and the second solar cell unit includes a first electrode disposed on one side thereof and a second electrode disposed on an opposite side thereof, whereby a visibility, by which the light passes through the solar cell module, is increased by including the plurality of solar cells and the plurality of condensing layers, through which a visual ray may pass.

Abstract: Disclosed are a solar cell and a solar cell module comprising same, the solar cell comprising: a solar cell structure having one or more hollows passing therethrough in the height direction, and a plurality of light-concentrating parts disposed in each of the one or more hollows.

Abstract: Disclosed is a photovoltaic module including a transparent material layer, and a plurality of solar cells disposed inside one side of the transparent material layer, and at least one of the plurality of solar cells is disposed to be perpendicular to one side surface of the transparent material layer.

Abstract: Provided, according to the present invention, is a solar cell module having excellent visibility, the solar cell module comprising: a transparent substrate; and a solar cell which is installed inside the transparent substrate and converts sunlight into photoelectricity, wherein the solar cell is installed so as to be horizontally arrayed in the transparent substrate.

Abstract: Provided is a dye-sensitized solar cell including a flexible electrode. The dye-sensitized solar cell includes: first and second electrodes facing each other, and an electrolyte layer interposed between the first and second electrodes, wherein the first electrode comprises a structure formed of conductive fibers, a nano-particle semiconductor oxide layer formed on a surface of the structure of the conductive fibers, and dye molecules adsorbed in the nano-particle semiconductor oxide layer.

Abstract: Provided are a dye-sensitized solar cell and a method of fabricating the same. The dye-sensitized solar cell includes a lower substrate, an upper substrate, a dielectric, a semiconductor electrode layer, a dye layer, and an electrolyte. The upper substrate is spaced from the lower substrate and has a light emitting surface facing a surface of the lower substrate and a light incident surface opposite to the light emitting surface. The dielectric is disposed on the surface of the lower substrate. The semiconductor electrode layer includes electrode dots disposed on the dielectric. The dye layer is disposed on surfaces of the electrode dots. The electrolyte is disposed between the lower substrate and the upper substrate.

Abstract: Provided are a dye-sensitized solar cell and a method of manufacturing the same. The dye-sensitized solar cell includes a semiconductor electrode and a counter electrode that face each other, and an electrolytic solution interposed therebetween, wherein the semiconductor electrode includes: a conductive substrate; an oxide semiconductor-conductor structure formed on the conductive substrate; and dye molecules layer adsorbed onto the surface of the oxide semiconductor. A dye-sensitized solar cell manufactured using the method can effectively prevent electrons transferred to the conductor and an electrolyte from recombining, thus having maximal photoelectron conversion efficiency.

Abstract: Provided is a dye-sensitized solar cell including a flexible electrode. The dye-sensitized solar cell includes: first and second electrodes facing each other, and an electrolyte layer interposed between the first and second electrodes, wherein the first electrode comprises a structure formed of conductive fibers, a nano-particle semiconductor oxide layer formed on a surface of the structure of the conductive fibers, and dye molecules adsorbed in the nano-particle semiconductor oxide layer.

Abstract: Provided are a dye-sensitized solar cell module having a vertically stacked cell structure and a method of manufacturing the same. In the dye-sensitized solar cell module, a plurality of cells are vertically stacked in parallel with each other. Each of the cells includes mutually facing semiconductor and counter electrodes and an electrolyte layer interposed between the semiconductor and counter electrodes. A first conductive transparent substrate is interposed between two neighboring cells of the cells. The first conductive transparent substrate includes a first surface on which the counter electrode of one of the two neighboring cells is formed and a second surface on which the semiconductor electrode of the other is formed. A second conductive transparent substrate having a semiconductor electrode forms the lowermost cell of the cells, and a third conductive transparent substrate having a counter electrode forms the uppermost cell of the cells.

Abstract: A dye-sensitized solar cell in which an insulating layer is formed on exposed surfaces of a semiconductor oxide layer in a semiconductor electrode and a conductive substrate, and a method of manufacturing the dye-sensitized solar cell are provided. The dye-sensitized solar cell includes a semiconductor electrode and an opposing electrode disposed to face each other, and an electrolyte solution interposed between the electrodes. The semiconductor electrode includes a conductive substrate, a semiconductor oxide layer formed on the semiconductor electrode, a dye molecule layer adhered to the surface of the semiconductor oxide layer, and an insulating layer formed on the surfaces of the semiconductor oxide layer exposed through the dye molecule layer and the conductive substrate. The insulating layer is formed of a self-assembling organic layer which is self-assembled on the surfaces of the semiconductor oxide layer and the conductive substrate by a chemical bond.

Abstract: A chemical approach for the attachment of molecules on a surface of a MEMS device, preferably, to provide a monolayer film thereon of relatively low surface energy.