Patent application number | Description | Published |
20080303029 | Structure, Semiconductor Device, Tft Driving Circuit, Panel, Display and Sensor for Maintaining Microstructure, Methods for Fabricating the Structure, the Semiconductor Device, the Tft Driving Circuit, the Panel, the Display and the Sensor - A method for fabricating a structure according to the present invention includes the steps of: forming a groove in a substrate, dropping a solution in which microstructures such as nanowires are dispersed into the groove and the step of evaporating the solution to arrange the microstructures in the groove in a self-organizing manner. | 12-11-2008 |
20090053417 | METHOD OF FORMING ORGANIC MOLECULAR FILM STRUCTURE AND ORGANIC MOLECULAR FILM STRUCTURE - The present invention provides a method for forming an organic molecular film structure that can maintain desired functions characteristic to the organic material and that can be realized as a thin film, and the organic molecular film structure. An organic molecular film structure forming method for forming an organic molecular film on a base material comprises the steps of: i) forming a monomolecular film ( | 02-26-2009 |
20090194763 | SEMICONDUCTOR ELEMENT, METHOD FOR MANUFACTURING THE SEMICONDUCTOR ELEMENT, ELECTRONIC DEVICE AND METHOD FOR MANUFACTURING THE ELECTRONIC DEVICE - A manufacturing method of a semiconductor element provided with a semiconductor layer containing a crystal of an organic semiconductor material of the invention includes the steps of (i) forming a frame ( | 08-06-2009 |
20100022737 | ORGANIC POLYMER CONTAINING TWO OR MORE ORGANIC RING STRUCTURES AND A CHAIN STRUCTURE THREADING THROUGH THE ORGANIC RING STRUCTURES, AND PRODUCTION METHOD THEREOF - A production method of the present invention is a production method of an organic polymer containing two or more organic ring structures and a chain structure threading through the organic ring structures. This method includes a polymerization step of forming the organic polymer, in which the organic ring structures, which are restricted from moving, are disposed at each of a particular constitutional unit, by polymerizing at least one type of monomers each of which has no ionic functional group that releases a metal ion. The above at least one type of monomers include a monomer (M) containing the organic ring structure and a chain component threading through the organic ring structure. | 01-28-2010 |
20110311740 | WATER STORAGE STRUCTURE AND METHOD FOR FORMING THE SAME - Securing water is essential for growth of plants, and a structure that can positively store water is provided. A water storage structure includes a water-repellent layer having a water-repellent surface and a water storage section above the water-repellent layer. The water-repellent layer is composed of a collection of small objects having water repellency in surfaces thereof, and the small objects contact each other at multiple points to form a configuration that prevents water from passing through the water-repellent layer. | 12-22-2011 |
20120138448 | METHOD FOR DESALINATING SALTWATER WITH DESALINATION DEVICE - An object of the present invention is to provide a method for desalinating saltwater with a desalination device. | 06-07-2012 |
20120321110 | POROUS SILICA MATERIAL AND OPTICAL MICROPHONE USING THE SAME - A porous silica material in which silica particles are connected to one another three-dimensionally, wherein: the porous silica material includes a through hole including first pores smaller than a mean free path of an air, and second pores larger than the first pores; the porous silica material has a density of 100 kg/m | 12-20-2012 |
20130259573 | ARTIFICIAL SOIL STRUCTURE AND METHOD OF FORMING THE SAME - An artificial soil structure includes a water shield layer provided on a soil layer and including water repellent sand processed by water repellent treatment, a water retentive layer provided on the water shield layer and including water retentive sand with no water repellent treatment, and a water repellent soil body provided partially in the water shield layer so as to penetrate the water shield layer and be in contact with the soil layer and the water retentive layer, the soil body including sand processed by water repellent treatment, wherein the water shield layer has water infiltration pressure higher than that of the water repellent soil body. | 10-03-2013 |
20130330262 | METHOD FOR PRODUCING POROUS SILICA MATERIAL - A method of producing a porous silica material includes: preparing a raw material solution containing silicon alkoxides including diisobutyldimethoxysilane and tetramethoxysilane in such a mass ratio that a mass of the diisobutyldimethoxysilane is 0.25 or more and 1 or less per mass of the tetramethoxysilane, and a solvent; obtaining a wet gel by adding, to the raw material solution, an aqueous solution containing a catalyst for promoting hydrolysis and condensation polymerization of the silicon alkoxides, the aqueous solution having a pH of 8.9 or more and 11.3 or less; washing the wet gel; and drying the washed wet gel under supercritical conditions. | 12-12-2013 |
20140048542 | WATER STORAGE STRUCTURE - A water storage structure includes an impermeable layer including a plurality of hydrophobic particles, a water retentive layer provided on the impermeable layer and capable of holding a predetermined volume of liquid, and a pavement layer provided on the water retentive layer and including a tube penetrating from a first surface to a second surface. | 02-20-2014 |
20140056590 | POROUS SILICA MATERIAL AND OPTICAL MICROPHONE - A porous silica material disclosed in the present application is a porous silica material in which a plurality of silica particles are connected to one another three-dimensionally, wherein: a density of the porous silica material is less than 220 kg/m | 02-27-2014 |
20150014145 | MEASUREMENT SYSTEM INCLUDED IN DESALINATION SYSTEM, DESALINATION SYSTEM, AND DESALINATION METHOD - In a desalination system, a water-repellent particle layer is provided at a lower portion of a water tank and composed of water-repellent particles. A devolatilizing layer is provided below the layer. Liquid is provided in the tank and is heated for evaporation, and obtained vapor passes through the particle layer and is liquefied at the devolatilizing layer, so that freshwater is obtained from the liquid. The particle layer includes a first and a second particle layers composed of discriminable first and second particles. A particle measuring unit measures an amount of the second water-repellent particles. A decision unit decides whether or not the measured amount of the second water-repellent particles is equal to or more than a predetermined value. A controller alerts when the decision unit decides that the amount of the second particles is equal to or more than the predetermined value. | 01-15-2015 |
20150014146 | DESALINATION SYSTEM AND DESALINATION METHOD - A desalination system includes a water tank, a water-repellent particle layer located at a lower portion of the tank and composed of water-repellent particles, and a devolatilizing layer located below the water-repellent particle layer. Liquid is introduced to the tank, the introduced liquid is heated to be evaporated into water vapor, and the water vapor passes through the water-repellent particle layer and is liquefied at the devolatilizing layer, so that fresh water is obtained from the liquid. The desalination system further includes a liquid level controller for determining a level of the liquid introduced to the tank in accordance with information on relationship between information corresponding to an amount of the liquid introduced to the tank and a surface level of the liquid in the tank, and an introduced amount controller for adjusting the amount of the liquid introduced to the tank in accordance with the determined liquid surface level. | 01-15-2015 |
20150047966 | DESALINATION APPARATUS AND DESALINATION METHOD - The desalination apparatus according to the present disclosure includes: a water-repellent particle layer that is located below a water tank, contains water-repellent particles, and allows passage of water vapor generated by evaporation of the liquid stored in the water tank, the water tank being a space for storing the liquid; and a liquefying layer that is located below the water-repellent particle layer, and liquefies the water vapor that has passed through the water-repellent particle layer to obtain the fresh water. The water-repellent particle layer includes an anti-migration layer provided as a surface layer that faces the water tank and containing anti-migration particles. Each of the anti-migration particles has a higher aspect ratio than the water-repellent particles, the aspect ratio being a value obtained by dividing a length in a major axis direction by a length in a minor axis direction. | 02-19-2015 |
20150060260 | DESALINATION SYSTEM AND DESALINATION METHOD - A desalination system, etc. of the present disclosure includes: a water tank; a water-repellent particle layer that is located below the water tank and contains a plurality of water-repellent particles; a liquefying layer that is located below the water-repellent particle layer and liquefies water vapor that has passed through the water-repellent particle layer, to obtain fresh water; an introduction channel of a liquid supply channel that supplies a liquid to the water tank; and a liquid speed reduction part that is located on the introduction channel of the supply channel, and includes a wall surface crossing a flow direction of the liquid in the supply channel, for reducing a flow speed of the liquid. | 03-05-2015 |
20150075965 | WATER AMOUNT CONTROLLING METHOD AND DESALINATION SYSTEM - A water amount controlling method according to the present disclosure includes: opening a discharge valve that discharges a liquid from a water tank if an impurity concentration is higher than or equal to a first reference value, and opening a sluice gate that introduces the liquid to the water tank a predetermined period after opening the discharge valve, the first reference value being lower than a saturation concentration; throttling the discharge valve and the sluice gate if the impurity concentration is higher than or equal to a second reference value and the temperature is lower than or equal to a third reference value, the second reference value being lower than the first reference value; and closing the discharge valve if the impurity concentration is lower than the second reference value, and closing the sluice gate a predetermined period after closing the discharge valve. | 03-19-2015 |
20150075966 | DESALINATION APPARATUS AND DESALINATION METHOD - A desalination apparatus according to one aspect of the present disclosure obtains fresh water from a liquid. The desalination apparatus includes: a water-repellent particle layer that is located below a water tank, contains water-repellent particles, and allows passage of water vapor generated by evaporation of the liquid stored in the water tank, the water tank being a space for storing the liquid; and a liquefying layer that is located below the water-repellent particle layer, and liquefies the water vapor that has passed through the water-repellent particle layer to obtain the fresh water. The water-repellent particle layer includes: a first layer that contains first water-repellent particles among the water-repellent particles, and faces the water tank; and a second layer that contains second water-repellent particles among the water-repellent particles, and is provided below the first layer. The second water-repellent particles have a larger average particle size than the first water-repellent particles. | 03-19-2015 |