Abstract: Provided are a polyvinyl pyrrole host material emitting highly efficient phosphorescence, a luminescent layer using the material, and an organic electroluminescent display device. The polyvinyl pyrrole host material shows highly efficient luminescence having improved energy transfer, and thus is useful for an organic electroluminescent display device and other various light emitting devices.

Abstract: Provided are a light emitting layer including molten salt and an organic electroluminescent device comprising the light emitting layer. When the organic electroluminescent device is operated, a field induction charge separation layer is formed in the light emitting layer including the molten salt and thus, carrier injection is improved, thereby providing a light emitting layer having improved light emitting efficiency. An organic electroluminescent device including the light emitting layer has low operating voltage and long lifespan.

Abstract: Provided are a composition for an electron transport layer which can be wet coated at a low temperature, an electron transport layer manufactured by coating and drying the composition, and an organic electroluminescent device including the electron transport layer. The organic electroluminescent device including the electron transport layer manufactured by wet coating the composition for an electron transport layer has an improved electron injection into a light emitting layer, thereby having an excellent light emitting efficiency, low operating voltage, and improved lifespan.

Abstract: Provided is an arylene derivative including a polar functional group represented by Formula 1: An arylene derivative including a polar functional group has excellent solubility in an organic solvent. A soluble compound of the arylene derivative can be used to form a thermally stable organic layer which can be used to form an organic light emitting device having low operating voltage, high efficiency, and excellent brightness.

Abstract: Provided are an organic light-emitting compound of Formula 1 and an organic light-emitting device using the organic light-emitting compound: where Ar, R1, R2, R3, R4, and R5 are the same as defined in the detailed description. The organic light-emitting device manufactured using the organic light-emitting compound has a low turn-on voltage and high efficiency and color purity.

Abstract: A donor substrate for forming a nano conductive film includes a base substrate and a transferring layer that is disposed on the base substrate. The transferring layer includes nano conductive particles and an organic semiconductor. A method of patterning a nano conductive film is provided, wherein a donor substrate in which nano conductive particles are dispersed by employing an organic semiconductor having low molecular weight as a binder is prepared, and nano conductive particles are patterned on a receptor substrate by employing the donor substrate. The method can be used to prepare patterns of various devices including a display device such as an OLED and an OTFT. Such a device can be prepared simply and economically by preparing a device comprising nano conductive particles and an organic semiconductor in wet basis even without deposition.

Abstract: A donor substrate and a method of forming an organic semiconductor layer pattern using the donor substrate, whereby a donor substrate is formed using an organic semiconductor precursor having a thermally decomposable substituent through a wet process, the organic semiconductor precursor substrate in the donor substrate is transferred to a receptor substrate as a pattern and heated, and thus is changed into an organic semiconductor. As a result, an organic semiconductor layer pattern is obtained. The method can be used in the manufacture of various devices such as organic light emitting diode and organic thin film transistor. A low-molecular weight organic semiconductor layer pattern can be formed through a wet process, not through deposition. Thus, using the method, a flat display device can be conveniently manufactured at low cost.

Abstract: An organic light emitting device (OLED) and a white light emitting device are provided. The OLED includes a substrate, a mesh shaped anode formed on the substrate and designed to pass light, a cathode facing the anode, and an organic light emitting layer located between the anode and the cathode.

Abstract: A blue electroluminescent polymer having a phenoxazine-based unit in a polyarylene backbone and an organic electroluminescent device using the polymer. The organic electroluminescent device has improved luminous efficiency and color purity.

Abstract: An organic electroluminescent compound and an organic electroluminescent device using the same. The organic electroluminescent compound having Formula 1 can be used as blue electroluminescent compound. The organic electroluminescent device using the organic electroluminescent compound having Formula 1 has improved luminous efficiency and color purity.

Abstract: An organic light emitting device includes a first electrode, a hole injection layer, an inorganic layer, a hole transport layer, an emitting layer which are sequentially formed on the first electrode; and a second electrode. The organic light emitting device has a high emission efficiency and an extended lifetime.

Abstract: A polysilsesquinone-based compound with an organometallic complex, which is bonded to a side chain of polysilsesquinoxane, enabling highly efficient phospholuminescence and an organic electroluminescent device using the same. The organometallic complex, which is suitably used for forming an organic layer of the organic electroluminescent device, provides a luminescence maximum emission in the wavelength range of 400-650 nm, and induces white electroluminescence when combined with green or red luminescent materials.

Abstract: An organic electroluminescent device having an emission layer, which is constructed with a host, a phosphorescence emission molecule as a dopant, and a fluorescence supporter. The fluorescence supporter receives energy from the host or traps energy directly, and then transfers the energy to the dopant or self-emits light. An emission spectrum of the fluorescence supporter and an absorption spectrum of the phosphorescence emission molecule overlap partly or completely. The organic electroluminescent device has improved luminous efficiency and color purity characteristics in comparison with a conventional organic electroluminescent device having an emission layer, which is composed of a phosphorescent dopant and a host. This system is useful in the manufacture of, in particular, blue emission devices.

Abstract: A spirofluorene-based polymer which contains a spirofluorene structure as a basic unit and which is end-capped with functional moieties substituted by fluorine, and an organic electroluminescent device using an organic layer using the spirofluorene-based polymer. The organic electroluminescent device has improved efficiency, reduced driving voltage, and excellent thermal, optical and electrical stability.

Abstract: A binuclear organometallic complex enabling highly efficient phospholuminescence and an organic electroluminescent device using the same. The binuclear organometallic complex, which can be suitably used to form an organic layer of an organic electroluminescent device, produces luminescence in the wavelength range of 430-650 nm, and induces white electroluminescence when combined with green and red luminescent materials.

Abstract: The present invention is related to an intermediate layer of an organic electroluminescent device comprising an amine derivative substance which may further comprise a functional group capable of forming crosslinks. In particular, the substance may have excellent solubility and can be easily formed into a thin film. Specifically, the thin film may be stable in the solvent and can be easily formed to various thicknesses. Furthermore, the band gaps and LUMO/HOMO values may be easily controlled depending of the characteristics of the hole transporting material, so that an intermediate layer with the desired characteristics may be formed. Accordingly, the introduction of an intermediate layer manufactured using the substance of the present invention as the intermediate layer may result in an organic electroluminescent device having high efficiency and a longer lifespan.

Abstract: An organic electroluminescence device having a color improver added to a hole transport layer, so that it partially cuts off a long wavelength emission in an electron transport layer. The organic EL device has improved color purity while suppressing a decrease in emission efficiency.

Abstract: An organometallic complex that increases an energy band gap between HOMO and triplet MLCT states, and enables highly efficient phospholuminescence and can be used for an organic electroluminescent device. The organometallic complex, which is suitably used for forming an organic layer of the organic electroluminescent device, provides a luminescence maximum emission in the wavelength range of 400-650 nm, and induces white electroluminescence when combined with green or red luminescent materials.