Abstract: Disclosed is a doped organic electroluminescent device, comprising the following structures laminated in succession: a conductive anode substrate, a hole injecting layer, a hole transportation layer, an electron barrier layer, a light-emitting layer, an electron transportation layer, an electron injecting layer and a cathode; and the material for the electron barrier layer is a hole transportation material doped with a cerium salt. The material for an electron barrier layer in such a doped organic electroluminescent device is a hole transportation material doped with a cerium salt which has a low work function of approximately ?2.0 eV and can effectively block electrons.
Type:
Application
Filed:
November 28, 2011
Publication date:
January 29, 2015
Applicants:
OCEAN'S KING LIGHTING SCIENCE & TECHNOLOGY CO., LT, SHENZHEN OCEAN'S KING LIGHTING ENGINEERING CO.,LTD
Abstract: A composite material of carbon-coated graphene oxide, its preparation method and application are provided. The method for preparing the composite material comprises the following steps: obtaining graphene oxide; mixing the said graphene oxide and the source of organic carbon according to the mass ratio of 1-10:1 in water to form a mixed solution; making the mixed solution react hydrothermally under the condition of 100˜250° C., cooling, solid-liquid separating, washing, and drying to attain the composite material. The advantages of the preparation method are simple process, low energy consumption, low cost, no pollution and suitable for industrial production. The advantages of composite material are stable structural performance, high electric conductivity. Lithium ion battery and/or capacitor have/has high power density while the composite material is used to prepare the anode material of lithium ion battery and/or capacitor.
Type:
Application
Filed:
December 31, 2010
Publication date:
December 26, 2013
Applicant:
OCEAN'S KING LIGHTING SCIENCE & TECHNOLOGY CO., LT
Abstract: The disclosure provides a preparation method for copper oxide nanowires including following steps: step 01, a conductive layer as an electrode is prepared on a clean substrate, or a clean substrate with a conductive layer is provided directly. Step 02, copper powder is weighed up, and the copper powder is homogeneously mixed with organic carrier. Step 03, mixture prepared in step 02 is printed onto the clean substrate with a conductive layer. Step 04, the substrate after being processed by step 03 is sintered under atmosphere having oxygen, and finally cooled to obtain copper oxide nanowires. Adhesion between the copper oxide nanowires prepared in the present disclosure and the substrate is excellent, the copper oxide nanowires may substantially prepared uniformly in large area and under low temperature, technology flow of coating is decreased, a cost of manufacture is decreased, such that a promising method for bottleneck of commercialization process of the field emission device is provided.
Type:
Application
Filed:
April 23, 2010
Publication date:
February 7, 2013
Applicant:
OCEAN'S KING LIGHTING SCIENCE & TECHNOLOGY CO., LT
Abstract: Quinoid thiophene organic photoelectric material with formula (1), method for its preparation and application thereof are provided, wherein R1, R2, R3, R4, R5 and R6, which are identical or different, represent H, C1˜C30 alkyl or alkoxy, m and n, which are identical or different, represent integers between 1 and 20. The quinoid thiophene organic photoelectric material with formula (1) has wide spectral response, good thermal stability and environmental stability.
Type:
Application
Filed:
January 30, 2010
Publication date:
November 29, 2012
Applicant:
OCEAN'S KING LIGHTING SCIENCE & TECHNOLOGY CO., LT D,
Abstract: A luminescent element comprises: a luminescent substrate; and a metal layer with a metal microstructure formed on a surface of the luminescent substrate; the luminescent substrate comprises luminescent materials with a chemical composition of Zn2SiO4:Mn. A preparation method of a luminescent element and a luminescence method are also provided. The luminescent element has good luminescence homogeneity, high luminescence efficiency, good luminescence stability and simple structure, and can be used in luminescent device with ultrahigh brightness.
Type:
Application
Filed:
August 26, 2009
Publication date:
June 14, 2012
Applicant:
OCEAN'S KING LIGHTING SCIENCE & TECHNOLOGY CO LT.