Abstract: An anode material of a lithium-ion battery and a non-aqueous electrolyte lithium-ion battery are disclosed in the present invention. The anode material of a lithium-ion battery, wherein, a chemical formula of the anode material of the lithium-ion battery is MxNbyOz, wherein, M is a bivalent non-niobium metal ion, and x,y,z satisfy the following conditions: 0<x?3, 1?y?34, and 3?z?87.

Abstract: The present disclosure relates to an organic photoelectric functional material, a method for the same, usage of the same, and a light-emitting device. The organic photoelectric functional material has electroluminescence and electron transportation properties. The organic photoelectric functional material is selected from a group consisting of compounds represented by formula I and formula II, and combinations thereof. If the organic photoelectric functional material is used as an electroluminescence material, light emission thereof can be adjusted by modifying a quinoline moiety thereof with a substituent, and a luminous range thereof is about 345 nm to about 700 nm.

Abstract: An anode material of a lithium-ion battery according to the present invention is disclosed. A chemical formula of the anode material of the lithium-ion battery is MxNbyOz, wherein, M is a pentavalent non-niobium metal ion or a hexavalent non-niobium metal ion, and x, y, z satisfy the following conditions: 1<x?16, 2?y?28, and 13?z?94.

Abstract: An anode material of a lithium-ion battery and a non-aqueous electrolyte lithium-ion battery are disclosed in the present invention. The anode material of a lithium-ion battery, wherein, a chemical formula of the anode material of the lithium-ion battery is MxNbyOz, wherein, M is a bivalent non-niobium metal ion, and x,y,z satisfy the following conditions: 0<x?3, 1?y?34, and 3?z?87.

Abstract: The present disclosure relates to the field of luminescent materials of blue phosphorescent tetradentate cyclopalladated palladium complexes, and discloses a trisubstituted pyrazole based blue phosphorescent tetradentate cyclopalladated palladium complex, preparation and use thereof. The complex may be a delayed fluorescent and/or phosphorescent emitter, has a high thermal decomposition temperature, can perform blue luminescent, and has strong light emitting, and thus has a great application prospect in the field of blue light, and especially deep blue phosphorescent materials.

Abstract: The present invention belongs to the field of organic light emitting materials and discloses an organic metal complex, its preparation method and an application thereof. The metal complex provided by the present invention has a general formula structure as shown in a formula (I). In the present invention, a ligand containing a pyridine unit is introduced into the cyclometalated iridium (trivalent) of the organic metal complex. The obtained hetero complex of the iridium (trivalent) has a light emitting interval ranging from a near infrared region to a blue light region, and has the advantages of wide spectrum application range and low volume production cost, so as to obtain a stable and high-efficient phosphorescent material.

Abstract: The present disclosure relates to the field of blue phosphorescent tetradentate cyclic-metal palladium complex luminescent materials, and discloses a blue phosphorescent tetradentate cyclic-metal palladium complex based on 4-aryl-3,5-disubstituted pyrazol, preparation and use thereof. The complex may be a delayed fluorescent and/or phosphorescent emitter. The complex has characteristics of high thermal decomposition temperature, high luminous intensity, and deep blue light emission and a narrow emission spectrum, therefore there are a huge application prospects in the field of blue light, especially in deep blue phosphorescent materials.

Abstract: The present disclosure relates to the field of blue phosphorescent tetradentate cyclic-metal platinum complex luminescent material, and discloses a blue phosphorescent tetradentate cyclic-metal platinum complex comprising 6-substituted carbazole, preparation and uses thereof. The complex may be a delayed fluorescence and/or phosphorescent emitter. The complex has high thermal decomposition temperature, high quantum effect, and could perform blue light emitting and have a narrower emission spectrum, therefore there are a huge application prospects in the field of blue light, especially in deep blue phosphorescent material field.

Abstract: The present disclosure relates to an organic photoelectric functional material, a method for the same, usage of the same, and a light-emitting device. The organic photoelectric functional material has electroluminescence and electron transportation properties. The organic photoelectric functional material is selected from a group consisting of compounds represented by formula I and formula II, and combinations thereof. If the organic photoelectric functional material is used as an electroluminescence material, light emission thereof can be adjusted by modifying a quinoline moiety thereof with a substituent, and a luminous range thereof is about 345 nm to about 700 nm.

Abstract: The invention relates to the technical field of organic electroluminescent devices and discloses a polydentate binuclear ring metal complex and a device including the polydentate binuclear ring metal complex or its composition. The polydentate binuclear ring metal complex provided by the invention can not only provide the emission of most visible spectra, but also can be adjusted by changing the structure of ligand or fluorescent luminescence. In addition, the polydentate binuclear ring metal complexes provided by the invention have better stability and efficiency than the traditional emission complexes. The device provided by the invention comprises the polydentate binuclear ring metal complex or its composition, which include optical and electro-optic devices, optical absorption devices, organic light-emitting diode devices, photoemission devices, or devices that are compatible with optical absorption and emission.

Abstract: The invention relates to the technical field of organic electroluminescent devices and discloses a polydentate binuclear ring metal complex and a device including the polydentate binuclear ring metal complex or its composition. The polydentate binuclear ring metal complex provided by the invention can not only provide the emission of most visible spectra, but also can be adjusted by changing the structure of ligand or fluorescent luminescence. In addition, the polydentate binuclear ring metal complexes provided by the invention have better stability and efficiency than the traditional emission complexes. The device provided by the invention comprises the polydentate binuclear ring metal complex or its composition, which include optical and electro-optic devices, optical absorption devices, organic light-emitting diode devices, photoemission devices, or devices that are compatible with optical absorption and emission.

Abstract: The invention relates to the technical field of organic luminescent materials, in particular to a binuclear organometallic complex and its application. The binuclear organometallic complexes of the invention are at least one of the compounds shown in the selected from general formula I. The luminescent interval of the binuclear organometallic complexes of the invention is in the range of 400 nm to about 700 nm, compared with the traditional complexes, the binuclear organometallic complexes of the invention have improved stability and efficiency.

Abstract: An electromagnetic connection assembly includes a first connector and a second connector. The first connector includes a first housing, a first conductive part and a first magnetic absorption part, the second connector includes a second housing, a second conductive part and a second magnetic absorption part. The first magnetic absorption part and the second magnetic absorption part are magnetically adsorbed to achieve the conducting connection between the first connector and the second connector. Compared with related technology, the electromagnetic connection assembly provided by the invention achieves low contact force, high reliability, small volume, low cost, flexible design and zero contact indentation, without any impact to its appearance.

Abstract: The invention relates to the technical field of organic luminescent materials, in particular to a binuclear organometallic complex, its luminescent devices and its application. The binuclear organometallic complexes of the invention are at least one of the compounds shown in the selected from the general formula I. The luminescent interval of the binuclear organometallic complexes of the invention is in the range of 400 nm to about 700 nm, compared with the traditional complexes, the binuclear organometallic complexes of the invention have improved stability and efficiency.

Abstract: Disclosed herein are multidentate dinuclear cyclometallated complexes. The complexes are suitable as emitting materials or host materials in OLED devices.

Abstract: Magnetic tunnel junction (MTJ) structures, spin transfer torque magnetic random access memory (STT MRAM) structures, and methods for fabricating integrated circuits including such structures are provided. In an embodiment, an MTJ structure includes a cobalt iron carbon (CoFeC) fixed reference layer. Further, the MTJ structure includes a cobalt iron carbon (CoFeC) free storage layer. Also, the MTJ structure includes a tunnel barrier layer between the fixed reference layer and the free storage layer.

Abstract: Magnetic tunnel junction (MTJ) structures, spin transfer torque magnetic random access memory (STT MRAM) structures, and methods for fabricating integrated circuits including such structures are provided. In an embodiment, an MTJ structure includes a cobalt iron carbon (CoFeC) fixed reference layer. Further, the MTJ structure includes a cobalt iron carbon (CoFeC) free storage layer. Also, the MTJ structure includes a tunnel barrier layer between the fixed reference layer and the free storage layer.

Abstract: Disclosed herein are multidentate dinuclear cyclometallated complexes.

Abstract: Disclosed herein are multidentate dinuclear cyclometallated platinum complexes.

Abstract: Provided are an organic metal complex, its preparation method and light-emitting element containing the complex. The organic metal complex is selected from compounds shown as general formula I and combinations thereof. The ligand containing pyridine unit is introduced into the cyclometalated iridium(III) organic metal complex, and the obtained iridium(III) heterocomplex has a luminous range from near-infrared light to blue light, so that the ppz-Ir structure, which is originally non-luminous, can emit light at room temperature with advantages of wide application scope of spectrum and low cost of massive production.