Patent application number | Description | Published |
20110114170 | CONDUCTIVE PASTE AND SOLAR CELL - Disclosed is a conductive paste including; a conductive powder including a plurality of conductive particles, a metallic glass disposed between adjacent conductive particles of the conductive powder, and an organic vehicle in which the conductive powder and metallic glass are disposed, and a solar cell using the conductive paste. | 05-19-2011 |
20120031481 | CONDUCTIVE PASTE AND ELECTRONIC DEVICE AND SOLAR CELL INCLUDING AN ELECTRODE FORMED USING THE CONDUCTIVE PASTE - A conductive paste including a conductive powder, a metallic glass having a supercooled liquid region, and an organic vehicle. | 02-09-2012 |
20120037216 | CONDUCTIVE PASTE AND ELECTRONIC DEVICE AND SOLAR CELL INCLUDING AN ELECTRODE FORMED USING THE CONDUCTIVE PASTE - A conductive paste including a conductive powder, a metallic glass, and an organic vehicle, wherein the metallic glass includes an alloy of at least two metals selected from a first metal having a low resistivity, a second metal which forms a solid solution with the conductive powder, a third metal which extends a supercooled liquid region of the metallic glass, or a fourth metal having a higher standard free energy of formation of oxide than a standard free energy of formation of oxide of the first, the second, and third metals. | 02-16-2012 |
20120037220 | CONDUCTIVE PASTE AND ELECTRONIC DEVICE AND SOLAR CELL INCLUDING AN ELECTRODE FORMED USING THE CONDUCTIVE PASTE - A conductive paste including a conductive powder, a metallic glass, and an organic vehicle, wherein the metallic glass has a resistivity that is decreased when the metallic glass is heat treated at a temperature that is higher than a glass transition temperature of the metallic glass. | 02-16-2012 |
20120037221 | CONDUCTIVE PASTE AND ELECTRONIC DEVICE AND SOLAR CELL INCLUDING AN ELECTRODE FORMED USING THE CONDUCTIVE PASTE - A conductive paste including a conductive powder, a metallic glass, and an organic vehicle, wherein the metallic glass includes an alloy of at least two elements selected from an element having a low resistivity, an element which forms a solid solution with the conductive powder, or an element having a high oxidation potential, wherein the element having a low resistivity has a resistivity of less than about 100 microohm-centimeters, and the element having a high oxidation potential has an absolute value of a Gibbs free energy of oxide formation of about 100 kiloJoules per mole or greater. | 02-16-2012 |
20120056234 | HEAT DISSIPATION MATERIAL AND LIGHT EMITTING DIODE PACKAGE INCLUDING A JUNCTION PART MADE OF THE HEAT DISSIPATION MATERIAL - Disclosed are a heat dissipation material comprising a metallic glass and an organic vehicle and a light emitting diode package including at least one of a junction part, wherein the junction part includes a heat dissipation material including a metallic glass. | 03-08-2012 |
20120103409 | Conductive Paste And Electronic Device And Solar Cell Including An Electrode Formed Using The Same - A conductive paste may include a conductive powder, a metallic glass including a first element having a heat of mixing value with the conductive powder of less than 0, and an organic vehicle, and an electronic device and a solar cell may include an electrode formed using the conductive paste. | 05-03-2012 |
20120174976 | Conductive Paste, And Electronic Device And Solar Cell Including An Electrode Formed Using The Same - A conductive paste includes a conductive powder, a metallic glass, and an organic vehicle. The metallic glass may be an alloy including a first element with an atomic radius that satisfies the following equation: (r | 07-12-2012 |
20120180859 | Conductive Paste, And Electronic Device And Solar Cell Including An Electrode Formed Using The Same - A conductive paste includes a conductive powder, a metallic glass, and an organic vehicle. The metallic glass includes a first element, a second element having a higher absolute value of Gibbs free energy of oxide formation than the first element, and a third element having an absolute value of Gibbs free energy of oxide formation of about 1000 kJ/mol or less at a baking temperature and a eutectic temperature with the conductive powder of less than about 1000° C. An electronic device and a solar cell may include an electrode formed using the conductive paste. | 07-19-2012 |
20120240994 | CONDUCTIVE PASTE AND ELECTRONIC DEVICE, AND SOLAR CELL INCLUDING AN ELECTRODE FORMED USING THE CONDUCTIVE PASTE - A conductive paste may include a conductive component and an organic vehicle. The conductive component may include an amorphous metal. The amorphous metal may have a lower resistivity after a crystallization process than before the crystallization process, and at least one of a weight gain of about 4 mg/cm | 09-27-2012 |
20120247550 | CONDUCTIVE PASTE AND ELECTRONIC DEVICE AND SOLAR CELL INCLUDING AN ELECTRODE FORMED USING THE CONDUCTIVE PASTE - According to example embodiments, a conductive paste includes a conductive component that contains a conductive powder and a titanium (Ti)-based metallic glass. The titanium-based metallic glass has a supercooled liquid region of about 5K or more, a resistivity after crystallization that is less than a resistivity before crystallization by about 50% or more, and a weight increase by about 0.5 mg/cm | 10-04-2012 |
20130004716 | PASTE, METHOD OF PREPARING SAME, AND ELECTRONIC DEVICE - A paste may include a functional water-soluble material, a surfactant surrounding the functional water-soluble material to form a reverse micelle structure, a binder, and a liposoluble organic solvent, and an electronic device including at least one of a pattern and an electrode may be formed using the paste. | 01-03-2013 |
20130118572 | CONDUCTIVE PASTE AND ELECTRONIC DEVICE AND SOLAR CELL INCLUDING AN ELECTRODE FORMED USING THE CONDUCTIVE PASTE - A conductive paste includes a conductive powder, a metallic glass having a glass transition temperature of less than or equal to about 600° C. and a supercooled liquid region of greater than or equal to 0 K, and an organic vehicle, and an electronic device and a solar cell include an electrode formed using the conductive paste. | 05-16-2013 |
20130146135 | CONDUCTIVE PASTE AND ELECTRONIC DEVICE AND SOLAR CELL INCLUDING AN ELECTRODE FORMED USING THE CONDUCTIVE PASTE - A conductive paste including a conductive powder, a metallic glass including aluminum (Al) and a first element which forms a solid solution with the aluminum (Al), and an organic vehicle. | 06-13-2013 |
20130281833 | DEVICE AND METHOD FOR DIAGNOSING LUNG CANCER USING ELECTROMAGNETIC WAVE - The present invention relates to a device and method for diagnosing lung cancer using electromagnetic wave. The device includes a receiving part to receive magnetic wave generated from an electromagnetic wave transmitter ingested through human oral cavity and moving along with digestive organs; a measuring part to measure amplitude and phase information of the received electromagnetic wave; and a controller to diagnose the pulmonary tumor based on the above measurement results and the location information from the transmitter. | 10-24-2013 |
20130321620 | METHOD AND APPARATUS FOR RECOGNIZING OBJECT MATERIAL - Provided is an apparatus for recognizing object material. The apparatus includes: an imaging camera unit for capturing spatial image including various objects in a space; an exploring radar unit sending an incident wave to the objects and receiving spatial radar information including a surface reflected wave from a surface of each of the objects and an internal reflected wave from the inside of each of the objects; an information storage unit for storing reference physical property information corresponding to a material of each object; and a material recognition processor recognizing material information of each object by using the reference physical property information stored in the information storage unit, the spatial image provided by the imaging camera unit, and the spatial radar information provided by the exploring radar unit. | 12-05-2013 |
20130333920 | METALLIC GLASS, ARTICLE, AND CONDUCTIVE PASTE - Disclosed are a metallic glass including an amorphous alloy part including a plurality of elements; and an amorphous oxide in a supercooled liquid region, an article including a sintered product of the metallic glass, and a conductive paste including the metallic glass. | 12-19-2013 |
20130340815 | ELECTRODE AND METHOD OF FORMING THE SAME AND ELECTRONIC DEVICE INCLUDING THE SAME - An electrode including a first layer having a sintered product of a metallic glass and a first conductive material, and a second layer including a second conductive material plated using the first layer as a seed layer, a method of manufacturing the same, and an electronic device including the electrode. | 12-26-2013 |
20140000694 | Conductive Paste And Electronic Device And Solar Cell | 01-02-2014 |
20140016253 | SEALING MATERIAL, DISPLAY DEVICE, AND METHOD OF MANUFACTURING THE DISPLAY DEVICE - A sealing material includes a metallic glass | 01-16-2014 |
20140023821 | MAGNETIC COMPOSITE AND METHOD OF MANUFACTURING THE SAME, AND ARTICLE AND DEVICE INCLUDING THE SAME - A magnetic composite including a magnetic material; and a binder including a metallic glass, a glass frit, or a combination thereof. | 01-23-2014 |
20140070148 | CONDUCTIVE POWDER, ARTICLE, AND CONDUCTIVE PASTE - According to example embodiments, a conductive powder includes a metallic glass and a coating on the surface of the metallic glass. The coating includes a metal. An article may include a sintered product of the conductive powder. A conductive paste may include the conductive powder. An electronic device may include a sintered product of the conductive paste. | 03-13-2014 |
20140109948 | THERMOELECTRIC MODULE, THERMOELECTRIC DEVICE COMPRISING THE SAME, AND PROCESS FOR PREPARING THE THERMOELECTRIC ELEMENT - A thermoelectric module including: an n-type thermoelectric element; a p-type thermoelectric element; a diffusion blocking layer bonded integrally on each of a top and a bottom surface of the n-type thermoelectric element and on each of a top and a bottom surface of the p-type thermoelectric element; an electrode on the n-type thermoelectric element and on the p-type thermoelectric element; and a bonding layer disposed between the electrode and at least one of the n-type thermoelectric element and the p-type thermoelectric element, wherein the bonding layer includes an amorphous metal. | 04-24-2014 |
20140114149 | LUNG CANCER DIAGNOSING DEVICE USING PULSE WAVE AND METHOD THEREOF - A lung cancer diagnosing device and the method thereof are provided. Lung cancer is diagnosed by using pulse waves having a wideband pulse width, so a possibility that a patient is exposed to radiation can be reduced, and since the configuration of transmission and reception circuits and relevant hardware of the device are simple, the size of the overall module is reduced. | 04-24-2014 |
20140312283 | METALLIC GLASS, CONDUCTIVE PASTE, AND ELECTRONIC DEVICE - According to example embodiments, a metallic glass includes aluminum (Al), a first element group, and a second element group. The first element group includes at least one of a transition metal and a rare earth element. The second element group includes at least one of an alkaline metal, an alkaline-earth metal, a semi-metal, and a non-metal. The second element group and aluminum have an electronegativity difference of greater than or equal to about 0.25. The second element group is included less than or equal to about 3 at % of the metallic glass, based on the total amount of the aluminum (Al), the first element group, and the second element group. A conductive paste and/or an electrode of an electronic device may be formed using the metallic glass. | 10-23-2014 |
20140345919 | TRANSPARENT CONDUCTOR, METHOD OF MANUFACTURING THE SAME, AND ELECTRONIC DEVICE INCLUDING THE TRANSPARENT CONDUCTOR - A transparent conductor includes a metallic glass, and a method of manufacturing a transparent conductor includes: preparing a metallic glass or a mixture comprising the metallic glass; and firing the metallic glass or the mixture comprising the metallic glass at a predetermined temperature higher than a glass transition temperature of the metallic glass. | 11-27-2014 |
20150069455 | HEAT DISSIPATION MATERIAL AND LIGHT EMITTING DIODE PACKAGE INCLUDING A JUNCTION PART MADE OF THE HEAT DISSIPATION MATERIAL - Disclosed are a heat dissipation material comprising a metallic glass and an organic vehicle and a light emitting diode package including at least one of a junction part, wherein the junction part includes a heat dissipation material including a metallic glass. | 03-12-2015 |
Patent application number | Description | Published |
20100258852 | NON-VOLATILE MEMORY DEVICE AND METHOD FOR FABRICATING THE SAME - A method for fabricating a non-volatile memory device includes alternately stacking a plurality of interlayer dielectric layers and a plurality of conductive layers over a substrate, etching the interlayer dielectric layers and the conductive layers to form a trench which exposes a surface of the substrate forming a first material layer over a resulting structure in which the trench is formed, forming a second material layer over the first material layer, removing portions of the second material layer and the first material layer formed on a bottom of the trench to expose the surface of the substrate, removing the second material layer, and burying a channel layer within the trench in which the second material layer is removed. | 10-14-2010 |
20100314678 | NON-VOLATILE MEMORY DEVICE AND METHOD FOR FABRICATING THE SAME - A method for fabricating a non-volatile memory device, the method includes alternately stacking inter-layer dielectric layers and sacrificial layers over a substrate, etching the inter-layer dielectric layers and the sacrificial layers to form trenches to expose a surface of the substrate, etching the inter-layer dielectric layers exposed by the trenches to a predetermined thickness, forming junction layers over etched portions of the inter-layer dielectric layers, and burying a layer for a channel within the trenches in which the junction layers have been formed to form a channel. | 12-16-2010 |
20110169072 | 3D NONVOLATILE MEMORY DEVICE AND METHOD FOR FABRICATING THE SAME - A 3D nonvolatile memory device includes a plurality of channel structures each comprising a plurality of channel layers and interlayer dielectric layers which are alternately stacked, a plurality of channel contacts coupled to the plurality of channel layers, respectively, and a plurality of selection lines vertically-coupled to the plurality of channel contacts and crossing over the plurality of channel structures. | 07-14-2011 |
20120211822 | NON-VOLATILE MEMORY DEVICE AND METHOD FOR FABRICATING THE SAME - A method for fabricating a non-volatile memory device includes alternately stacking a plurality of interlayer dielectric layers and a plurality of conductive layers over a substrate, etching the interlayer dielectric layers and the conductive layers to form a trench which exposes a surface of the substrate forming a first material layer over a resulting structure in which the trench is formed, forming a second material layer over the first material layer, removing portions of the second material layer and the first material layer formed on a bottom of the trench to expose the surface of the substrate, removing the second material layer, and burying a channel layer within the trench in which the second material layer is removed. | 08-23-2012 |
20130175602 | Non-Volatile Memory Device Having Three Dimensional, Vertical Channel, Alternately Stacked Gate Electrode Structure - A method for fabricating a non-volatile memory device, the method includes alternately stacking inter-layer dielectric layers and sacrificial layers over a substrate, etching the inter-layer dielectric layers and the sacrificial layers to form trenches to expose a surface of the substrate, etching the inter-layer dielectric layers exposed by the trenches to a predetermined thickness, forming junction layers over etched portions of the inter-layer dielectric layers, and burying a layer for a channel within the trenches in which the junction layers have been formed to form a channel. | 07-11-2013 |