Abstract: Disclosed herein is an organic light-emitting diode, comprising an anode, a hole transport layer, a light-emitting layer including a host and a dopant, an electron transport layer, and a cathode in that order, wherein an electron-density-controlling layer including an anthracene derivative represented by the following Chemical Formula A is disposed between the light-emitting layer and the electron transport layer, and wherein an affinity Ah (eV) of the host of the light-emitting layer, an affinity Aed (eV) of the electron-density-controlling layer, and an affinity Ae (eV) of the electron transport layer satisfy an relationship of Ah?Aed?Ae.

Abstract: The present invention relates to a compact tunable laser device that can change the oscillation laser wavelength.

Abstract: Provided are an electrolyte for a sodium secondary battery, and a sodium secondary battery using the same, and the sodium secondary battery using the electrolyte for a sodium secondary battery according to the present invention may have an excellent cycle characteristic, charge-discharge capacity, and stability, thereby making it possible to be operated without deterioration at a low temperature for a long time.

Abstract: The present invention relates to an external cavity type laser provided with a wavemeter capable of precisely measuring a wavelength of a laser beam based on a transmission wavelength band of a wavelength selective filter inserted into a cavity regardless of a driving current of a laser diode chip.

Abstract: Provided is a cathode active material for a secondary battery, specifically, a cathode active material for a secondary battery including sodium transition metal pyrophosphate satisfying Na3.12?x2Acx1M1ay1M2by2 (P2O7) z, which has an advantage of structural stability due to a strong P—O bond of sodium transition metal phosphate having an olivine structure, and also performs proper intercalation and deintercalation of Na ions having a large ion radius, thereby significantly improving reversibility during charging and discharging, and a charge and discharge rate.

Abstract: A light receiving module having a built-in wavelength-tunable wavelength-selective filter that can selectively receive light with a specific wavelength from laser light with various wavelengths emitted from an optical fiber and tune the specific wavelength. In the light receiving module including a light receiving element having a built-in wavelength-tunable wavelength-selective filter that receives laser light from an optical fiber according to the present invention, a flat plate-shaped window (240) transmitting laser light from an optical fiber (600) is formed in the light receiving element (22), a wavelength-tunable wavelength-selective filter for separating wavelengths of laser light traveling as parallel light is disposed in the light receiving element (22), and a lens (400) converting laser light from the optical fiber (800) into parallel light is disposed between the optical fiber (800) and the light receiving element (22).

Abstract: The present invention relates to a TO can-type optical module for ultrahigh-speed communication including a laser diode chip of ultrahigh-speed communication of at least 5 Gbps (Giga bit per sec). In an optical module for ultrahigh-speed communication according to the present invention, a substrate for high-speed signal transmission for transmitting a signal to a laser diode chip is formed by coupling an upper substrate 210 for high-speed signal transmission on which line patterns for high-speed signal transmission are formed, and a lower substrate 220 for high-speed signal transmission of which an upper surface has conductivity with each other, such that the optical module for ultrahigh-speed communication may have single ended impedance of 25 ohms or differential ended impedance of 50 ohms to enable ultrahigh-speed communication, may have a height of about 0.

Abstract: A TO-type optical element package for high-speed communication which is used for an optical module for high-speed communication of at least 10 gigabits per sec (Gbps) and enables thermoelectric elements to be embedded in an upper part of a stem. The TO-type optical element package for high-speed communication can transmit high-quality signals in a high-speed operation of the optical element by inserting and fixing an electrode pin (120) in a through-hole formed on a stem base (100), surrounding a lateral surface of the electrode pin (120) protruding to an upper part of the stem base (100), with a metallic instrument (400) having a through-hole so as to enable the impedance of an electrode pin (120) part, surrounded with the stem base (100), to correspond to the impedance of an electrode pin (120) part protruding to the upper part of the stem base (100).

Abstract: A device disclosed herein includes a plurality of spaced-apart fin structures formed in a semiconductor substrate so as to define an alignment/overlay mark trench. An alignment/overlay mark includes at least one insulating material positioned within the alignment/overlay mark trench. The alignment/overlay mark is devoid of any of the fin structures.

Abstract: Provided are an electrolyte for a sodium secondary battery and a sodium secondary battery using the same. More particularly, the sodium secondary battery includes an anode containing sodium, a cathode containing a transition metal, and a sodium ion conductive solid electrolyte provided between the anode and the cathode, wherein the cathode is impregnated in an electrolyte containing a molten sodium salt and an electrolyte additive, the electrolyte additive including an inorganic sodium salt.

Abstract: The present invention relates to a wavelength-tunable laser apparatus which can measure a wavelength in a wavelength-tunable laser diode package structure for dense wavelength division multiplexing (DWDM) having a transistor outline (TO) type appearance.

Abstract: An optical receiver that can tune a selected wavelength using a wavelength tunable filter transmitting a plurality of wavelengths. The optical receiver is a wavelength tunable optical receiver that includes: a wavelength tunable filter (100) transmitting laser light from an optical fiber; and a photodiode (300) receiving laser light passing through the wavelength tunable filter (100), in which the wavelength tunable filter 100 is a Fabry-Perot type etalon filter transmitting a plurality of wavelengths. When a channel with a specific wavelength is moved to a channel with another wavelength, an optical channel is selected based on a peak different from a transmissive peak of an FP etalon filter selecting the previous channel so that temperature of the wavelength tunable filter can be changed. A light-receiving photodiode chip is disposed on a thermoelectric element and a wavelength tunable filter transmits different wavelengths in accordance with temperature of the thermoelectric element.

Abstract: Pyrimidine derivatives of the present invention are represented by the following general formula (1), wherein W, X, Y and Z are carbon atoms or nitrogen atoms under the condition that only any one is a nitrogen atom to which none of the groups R6 to R9 are bonded, A and B are single bonds, divalent aromatic hydrocarbon groups or divalent aromatic heterocyclic groups, Ar1 and Ar2 are monovalent aromatic hydrocarbon groups or monovalent aromatic heterocyclic groups, and R1 to R9 are hydrogen atoms, deuterium atoms, fluorine atoms, chlorine atoms, cyano groups, alkyl groups having 1 to 6 carbon atoms, monovalent aromatic hydrocarbon groups or monovalent aromatic heterocyclic groups. The compound excels in electron injection/transporting capability, features high hole-blocking power and high stability in the form of a thin film, and can be favorably used as a material for producing highly efficient and durable organic EL devices.

Abstract: One illustrative method disclosed herein includes forming a plurality of spaced-apart fin structures in a semiconductor substrate, wherein the fin structures define a portion of an alignment/overlay mark trench where at least a portion of an alignment/overlay mark will be formed, forming at least one layer of insulating material that overfills the alignment/overlay mark trench and removing excess portions of the layer of insulating material positioned above an upper surface of the plurality of fins to thereby define at least a portion of the alignment/overlay mark positioned within the alignment/overlay mark trench. A device disclosed herein includes a plurality of spaced-apart fin structures formed in a semiconductor substrate so as to partially define an alignment/overlay mark trench, an alignment/overlay mark consisting only of at least one insulating material positioned within the alignment/overlay mark trench, and a plurality of FinFET semiconductor devices formed in and above the substrate.

Abstract: Provided are a solid electrolyte for a sodium secondary battery, and a surface treatment method thereof, and more specifically, a solid electrolyte for a sodium secondary battery capable of having excellent electrochemical performance by improving wettability with respect to molten sodium, even under a low temperature operation environment of 250° C. or less, and a surface treatment method thereof.

Abstract: The present invention relates to a wavelength-tunable laser, which can tune an oscillating laser wavelength and can be manufactured in a small size, comprising: a laser diode chip (100) for emitting a laser beam; a partial reflection mirror (500) for optical feedback, which partially reflects the beam emitted from the laser diode chip (100) so as to enable the reflected beam to be fed back to the laser diode chip (100); a collimation lens (200) provided on an optical path between the laser diode chip (100) and the partial reflection mirror (500) for optical feedback so as to collimate the beam emitted from the laser diode chip (100); a wavelength-tunable selective filter (300) for converting the wavelength transmitted according to the temperature; a phase compensator (350) of which a refractive index is changed according to the temperature and which offsets a change in the refractive index according to the temperature of the semiconductor laser diode chip (100) or the wavelength-tunable selective filter (300)

Abstract: In a pad for a transfer apparatus, an object transfer apparatus, and an object transfer method, the pad for a transfer apparatus may include an upper pad which is connected to a body of the transfer apparatus and is made of a first material, and a lower pad which is fixed to a lower part of the upper pad so as to contact an object to be picked up and is made of a second material different from the first material. The second material may be more rigid compared with the first material.

Abstract: The present invention relates to a compact tunable laser device that can change the oscillation laser wavelength.

Abstract: The present invention relates to a semiconductor laser with an external cavity having a non-straight waveguide, in which a semiconductor laser diode used as an optical gain medium has a nonreflective coated side, light emitted from the laser diode chip is collected to a waveguide type of waveguide-selective filter and light having a wavelength selected by a grating on the waveguide is fed back to the laser diode chip, and the wavelength of emitted light is changed by electrically or thermally changing the properties of the waveguide.

Abstract: Disclosed is an organic light emitting compound represented by Formula I: Also disclosed is an organic light emitting device including the organic light emitting compound. The organic light emitting device can be driven at a low voltage to achieve high power efficiency. In addition, the organic light emitting device has excellent luminescent properties, such as high luminance and high luminous efficiency. Due to these advantages, the organic light emitting device can be utilized as a display device or a lighting device.