摘要:
A paste containing a silica polymer, made by substituting at least some of the surface functional groups thereof with alkyl groups, and solvent-removable inorganic particles is prepared, and the paste is applied and fired to form a transparent insulating film in a dye-sensitized solar cell.
摘要:
A photosensitized solar cell characterized in that at least a catalyst layer 3, a porous insulating layer 4 internally containing an electrolyte, a porous semiconductor layer 6 with a photosensitizer adsorbed thereon, internally containing the electrolyte, and a translucent cover member 7 are laminated in this order on a conductive substrate.
摘要:
A dye-sensitized solar cell module comprising: at least two dye-sensitized solar cells each formed by layering, on a light transmitting substrate, a transparent conductive layer, a grid electrode, a photoelectric conversion layer in which a dye is adsorbed in a porous semiconductor layer and the porous semiconductor layer is filled with a carrier transporting material, and a counter electrode, the at least two dye-sensitized solar cells being arranged on the same light transmitting substrate via an inter-cell insulating layer, one dye-sensitized solar cell and its neighboring dye-sensitized solar cell being connected in series via a connection layer.
摘要:
The present invention discloses a grooved dye-sensitized solar cell structure and a method for fabricating the same. The method of the present invention comprises providing a titanium plate having at least one groove; forming insulation layers on the grooves; forming a plurality of titanium dioxide units on the titanium plate each containing a plurality of titanium dioxide nanotubes, wherein each groove is arranged in between two adjacent titanium dioxide units; making the titanium dioxide units absorb a photosensitive dye; forming a transparent conductive film over the insulation layers and the titanium dioxide units; and filling an electrolyte into spaces each enclosed by the transparent conductive film, the titanium dioxide unit, the insulation layers. The present invention not only increases the electron transmission efficiency and photoelectric conversion efficiency but also promote the uniformity of the semiconductor layer.
摘要:
Disclosed is a photoelectric conversion device comprising a first conductive support having a layer containing a semiconductor, a second conductive support arranged opposite to the first conductive support and having a counter electrode, and a charge transfer layer interposed between the first conductive support and the second conductive support at a certain distance from the supports, and a sealing agent which is arranged around the charge transfer layer in the form of a single or more than single layer for bonding the first conductive support and the second conductive support together.
摘要:
A dye-sensitized solar cell is provided. The solar cell includes a first electrode substrate including a first tabular substrate which is transparent; a transparent conductive film; and an oxide semiconductor layer impregnated with a sensitizing dye; a second electrode substrate including a second tabular substrate; a conductive film; and a catalyst conductive layer; and a sealing member which seals a peripheral area between the first electrode substrate and the second electrode substrate. The sealing member includes a sealant in a first area of the peripheral area that overlaps with the transparent conductive film or the conductive film; and a sealing base material in a second area of the peripheral area that does not overlap with the transparent conductive film or the conductive film. An electrolyte is scaled in a sealing space formed by the first and second electrodes and the sealing member.
摘要:
An interconnected photoelectrochemical (PEC) cell (1) generates hydrogen and oxygen from water while being illuminated with radiation such as sunlight. The photovoltaic structure in the photoelectrode is deposited on a transparent and insulating substrate (also called superstrate) (3) that is covered with a transparent conducting layer (front electrode) (4). The front electrode is electrically connected to the back side of the photovoltaic structure such that the PLC cell can be made with high efficiency and high durability and at low cost. Three types of photoelectrodes and phtoelectrochemical cells are illustrated as examples.
摘要:
The present invention aims to improve the photoelectric current of a dye-sensitized solar cell module and produce a high power dye-sensitized solar cell.The present invention provides a dye-sensitized solar cell module comprising at least two photoelectric conversion elements each comprising a transparent conductive layer, a porous photoelectric conversion layer adsorbing a dye, an electrolytic layer, a catalyst layer, and a conductive layer on a transparent substrate, wherein the respective photoelectric conversion elements are different in at least one among the layering order of the respective layers composing the photoelectric conversion elements; the type and composition of the materials for the respective layers; the particle diameter on the case the materials of the respective layers are granular; the thickness and width of the respective layers; the form of the respective layers; and the open circuit voltage of the photoelectric conversion elements, and thereby the aim is achieved.
摘要:
An electrochemical cell and a method of manufacturing the same are provided. The electrochemical cell comprises: a first conductive layer; a metal oxide layer provided on the first conductive layer, the metal oxide layer comprising a plurality of adjacent metal oxide cells, spaced from one another; a functional dye layer provided on the metal oxide layer; a second conductive layer; an electrolyte layer provided between the functional dye layer and the second conductive layer, wherein at least one of the first and second conductive layers is transparent; and wherein the functional dye layer is formed from an organic solvent ink. In another embodiment, the electrochemical cell comprises: a first conductive layer; a metal oxide layer provided on the first conductive layer; a functional dye layer provided on the metal oxide layer; a second conductive layer; and an electrolyte provided between the functional dye layer and the second conductive layer, wherein at least one of the first and second conductive layers is transparent; and wherein the functional dye layer is formed from a binary solvent ink, comprising a first solvent and a second solvent.
摘要:
An electrochemical cell and a method of manufacturing the same is provided. The electrochemical cell comprises a first conductive layer; a metal oxide layer formed on the first conductive layer, the metal oxide layer comprising a plurality of adjacent metal oxide cells, spaced from one another; a functional dye layer formed on the metal oxide layer; a second conductive layer; and an electrolyte between the functional dye layer and the second conductive layer, wherein at least one of the first and second conductive layers is transparent; and the functional dye layer comprises at least two different coloured functional dyes each having a depth of colour, such that at least some of the plurality of adjacent metal oxide cells have different colours. Alternatively, the electrochemical cell comprises a first conductive layer; a metal oxide layer formed on the first conductive layer, the metal oxide layer comprising a plurality of adjacent metal oxide cells, spaced from one another; a functional dye layer formed on the metal oxide layer; a second conductive layer; and an electrolyte between the functional dye layer and the second conductive layer, wherein at least one of the first and second conductive layers is transparent; and the functional dye layer comprises at least two different depths of colour, such that at least some of the plurality of adjacent metal oxide cells have different depths of colour. In another embodiment, the electrochemical cell further comprises separating means formed on the first conductive layer and surrounding each of the plurality of adjacent metal oxide cells.