Patent application number | Description | Published |
20110308568 | Photoelectric Conversion Device - A photoelectric conversion device includes a first cell including a photoelectric conversion layer, a second cell over the first cell including a photoelectric conversion layer formed of a material having a wider band gap than that of the first cell, first and second electrodes under a surface of the first cell which is opposite to the second cell, and a third electrode over a surface of the second cell which is opposite to the first cell. The first and second cells each include a p-n or p-i-n junction, the first and second cells are in contact with each other and a p-n junction is formed in a contact portion therebetween, the first cell is electrically connected to the first and second electrodes to form a back contact structure, and the second cell is electrically connected to the third electrode. | 12-22-2011 |
20120118352 | PHOTOELECTRIC CONVERSION MODULE AND PHOTOELECTRIC CONVERSION DEVICE - A reflection member is provided for a space between photoelectric conversion cells or a periphery of the photoelectric conversion cells, which is the place not provided with the photoelectric conversion cell, so that a peak portion of the reflection member is higher than a surface of the photoelectric conversion cells. Accordingly; light having entered the space between the photoelectric conversion cells or the periphery of the photoelectric conversion cells, which does not contribute to power generation under normal circumstances, can be guided to the photoelectric conversion cell through reflection by the reflection member. Note that since the peak portion of the reflection member is higher than the surface of the photoelectric conversion cells, sunlight can be guided to the photoelectric conversion cell through one-time reflection, whereby the object can be achieved. | 05-17-2012 |
20120217566 | NONVOLATILE SEMICONDUCTOR MEMORY DEVICE AND MANUFACTURING METHOD THEREOF - An object is to suppress reading error even in the case where writing and erasing are repeatedly performed. Further, another object is to reduce writing voltage and erasing voltage while increase in the area of a memory transistor is suppressed. A floating gate and a control gate are provided with an insulating film interposed therebetween over a first semiconductor layer for writing operation and erasing operation and a second semiconductor layer for reading operation which are provided over a substrate; injection and release of electrons to and from the floating gate are performed using the first semiconductor layer; and reading is performed using the second semiconductor layer. | 08-30-2012 |
20120234392 | PHOTOELECTRIC CONVERSION DEVICE - A photoelectric conversion device with high open-circuit voltage and high conversion efficiency is provided. A photoelectric conversion device including a p-n junction is formed by stacking a first semiconductor layer having p-type conductivity, a second semiconductor layer having p-type conductivity, and a third semiconductor layer having n-type conductivity between a pair of electrodes. The first semiconductor layer is a compound semiconductor layer, and the second semiconductor layer is formed using an organic compound and an inorganic compound. A material having a high hole-transport property is used as the organic compound, and a transition metal oxide having an electron-accepting property is used as the inorganic compound. | 09-20-2012 |
20130056715 | PHOTOELECTRIC CONVERSION DEVICE - To provide a photoelectric conversion device which has little light loss caused by light absorption in a window layer, the photoelectric conversion device includes a first electrode, a first semiconductor layer formed over the first electrode, a second semiconductor layer formed over the first semiconductor layer, a third semiconductor layer formed over the second semiconductor layer, and a second electrode formed over the third semiconductor layer; and the first semiconductor layer is a light-transmitting semiconductor layer containing an organic compound and an inorganic compound, and the second semiconductor layer and the third semiconductor layer are each a semiconductor layer containing an organic compound. | 03-07-2013 |
20130119374 | PHOTOELECTRIC CONVERSION DEVICE - To provide a photoelectric conversion device which has little light loss caused by light absorption in a window layer and has favorable electric characteristics. The photoelectric conversion device includes, between a pair of electrodes, a light-transmitting semiconductor layer which has one conductivity type and serves as a window layer, and a silicon semiconductor substrate having a conductivity type for forming a p-n junction or a silicon semiconductor layer having a conductivity type for forming a p-i-n junction. The light-transmitting semiconductor layer can be formed using an inorganic compound containing, as its main component, an oxide of a metal belonging to any of Groups 4 to 8 of the periodic table. The band gap of the metal oxide is greater than or equal to 2 eV. | 05-16-2013 |
20130180577 | PHOTOELECTRIC CONVERSION DEVICE - To provide a photoelectric conversion device including a passivation film in which an opening for connection to an electrode does not need to be provided. The photoelectric conversion device includes, between a pair of electrodes, a silicon substrate having p-type conductivity; a silicon semiconductor layer having n-type conductivity which is provided over one surface of the silicon substrate and in contact with one of the pair of electrodes; and an oxide semiconductor layer having p-type conductivity which is provided over the other surface of the silicon substrate and in contact with the other of the pair of electrodes. The oxide semiconductor layer is formed using an inorganic compound which contains an oxide of a metal belonging to any of Groups 4 to 8 in the periodic table as its main component and whose band gap is greater than or equal to 2 eV. | 07-18-2013 |
20130214271 | P-Type Semiconductor Material and Semiconductor Device - An oxide semiconductor material having p-type conductivity and a semiconductor device using the oxide semiconductor material are provided. The oxide semiconductor material having p-type conductivity can be provided using a molybdenum oxide material containing molybdenum oxide (MoO | 08-22-2013 |