摘要:
Disclosed is a transparent carbon nanotube (CNT) electrode using a conductive dispersant. The transparent CNT electrode comprises a transparent substrate and a CNT thin film formed on a surface the transparent substrate wherein the CNT thin film is formed of a CNT composition comprising CNTs and a doped dispersant. Further disclosed is a method for producing the transparent CNT electrode.The transparent CNT electrode exhibits excellent conductive properties, can be produced in an economical and simple manner by a room temperature wet process, and can be applied to flexible displays. The transparent CNT electrode can be used to fabricate a variety of devices, including image sensors, solar cells, liquid crystal displays, organic electroluminescence (EL) displays and touch screen panels, that are required to have both light transmission properties and conductive properties.
摘要:
Disclosed herein is an image display device having a plurality of light emitting diodes (LEDs), which can maintain a primary color which is desired to be expressed, and prevent an interference of other unwanted colors and a change of the primary color at the time of application of a light source of each light emitting diode. The image display device comprises: a first optical filter layer containing a violet wavelength-absorbing material having a wavelength range of from 380 nm to 450 nm such as Bi2O3 so as to prevent light having a wavelength ranging from 380 nm to 450 nm from being leaked out to an undesired region of an image display portion of the image display device; and a second optical filter layer such as a blue color filter layer so as to allow a white light to be expressed in a desired region of the image display portion.
摘要翻译:本文公开了一种具有多个发光二极管(LED)的图像显示装置,其可以保持期望表达的原色,并且防止其它不需要的颜色的干扰和原色的变化 应用每个发光二极管的光源。 图像显示装置包括:含有波长范围为380nm〜450nm的紫外线波长吸收材料的第一光学滤光层,例如Bi 2 O 3,以防止波长范围为380nm至450nm的光被泄漏 出射到图像显示装置的图像显示部分的不期望区域; 以及第二滤光器层,例如蓝色滤色器层,以便允许在图像显示部分的期望区域中表达白光。
摘要:
Provided is a memory device comprising a substrate, a source region, and a drain region that may be formed in the substrate and spaced apart from each other, a memory cell that may be formed on the surface of the substrate, connecting the source region and the drain region, and including a plurality of nanocrystals, wherein the memory cell comprises a first tunneling oxide layer formed on the substrate, and a control oxide layer including a plurality of nanocrystals formed on the tunneling oxide layer and a control gate formed on the memory cell. The memory device may include a polyelectrolyte film which enables a uniform arrangement of nanocrystals. The device characteristics may be controlled and a memory device with improved device characteristics may be provided.
摘要:
Disclosed herein is an image display device having a plurality of light emitting diodes (LEDs), which can maintain a primary color which is desired to be expressed, and prevent an interference of other unwanted colors and a change of the primary color at the time of application of a light source of each light emitting diode. The image display device comprises: a first optical filter layer containing a violet wavelength-absorbing material having a wavelength range of from 380 nm to 450 nm such as Bi2O3 so as to prevent light having a wavelength ranging from 380 nm to 450 nm from being leaked out to an undesired region of an image display portion of the image display device; and a second optical filter layer such as a blue color filter layer so as to allow a white light to be expressed in a desired region of the image display portion.
摘要翻译:本文公开了一种具有多个发光二极管(LED)的图像显示装置,其可以保持期望表达的原色,并且防止其它不需要的颜色的干扰和原色的变化 应用每个发光二极管的光源。 图像显示装置包括:含有波长范围为380nm〜450nm的紫外线波长吸收材料的第一光学滤光层,例如Bi 2 O 3,以防止波长范围为380nm至450nm的光被泄漏 出射到图像显示装置的图像显示部分的不期望区域; 以及第二滤光器层,例如蓝色滤色器层,以便允许在图像显示部分的期望区域中表达白光。
摘要:
Provided is a substrate for forming a pattern comprising an inorganic layer having a modified surface, wherein the modified surface is formed by coating a surface of the inorganic layer with a bifunctional molecule comprising a functional group having an affinity for a nanocrystal at one end of the molecule and a functional group having an affinity for the inorganic layer at the other end of the molecule. A method for forming a pattern of nanocrystals is also provided.
摘要:
The present disclosure relates to an organic memory device and a fabrication method thereof. The organic memory device comprises a first electrode, a second electrode, and an organic memory layer situated between the electrodes, wherein a metallic nanoparticle layer is further situated between the first electrode and the organic memory layer. Since the organic memory device may be operated using only positive voltages, a 1D1R device composed of one diode and one resistor can be realized and a passive matrix can be realized due to the 1D1R structure. Accordingly, the organic memory device enables higher integration, ultrahigh speeds, larger capacities, lower power consumption, and/or lower prices.
摘要:
A method of preparing a patterned carbon nanotube array a patterned carbon nanotube array prepared thereby are provided. The method includes forming carbon nanotubes in channels of porous templates, arranging the templates in a predetermined pattern on a substrate and selectively removing the templates to expose the carbon nanotubes.
摘要:
Provided is a siloxane dispersant having a structure including a head part having an affinity for nanoparticles and a tail part having an affinity for a polydimethylsiloxane (PDMS) resin, and a nanoparticle paste composition comprising the same. The dispersant significantly improves dispersion efficiency of a polydimethylsiloxane resin system which is used in preparation of high-output light sources such as UV LEDs and the like.
摘要:
Disclosed is a dispersant having a multifunctional head, and a phosphor paste composition comprising the dispersant. The dispersant has a multifunctional head that comprises an acidic group, a basic group and an aromatic group, thereby enhancing an affinity for the surface of phosphor particles and improving dispersibility.
摘要:
Disclosed is a transparent carbon nanotube (CNT) electrode using a conductive dispersant° The transparent CNT electrode comprises a transparent substrate and a CNT thin film formed on a surface the transparent substrate wherein the CNT thin film is formed of a CNT composition comprising CNTs and a doped dispersant. Further disclosed is a method for producing the transparent CNT electrode. The transparent CNT electrode exhibits excellent conductive properties, can be produced in an economical and simple manner by a room temperature wet process, and can be applied to flexible displays. The transparent CNT electrode can be used to fabricate a variety of devices, including image sensors, solar cells, liquid crystal displays, organic electroluminescence (EL) displays and touch screen panels, that are required to have both light transmission properties and conductive properties.