Abstract: A lithium cobalt metal oxide powder is disclosed in the present disclosure. The lithium cobalt metal oxide powder has a coating structure. The lithium cobalt metal oxide powder includes a lithium cobalt metal oxide matrix. The lithium cobalt metal oxide powder further includes a Co3O4 coating layer. A general formula of the lithium cobalt metal oxide powder is LiaCo1-x-yMxNyO2·rCo3O4, wherein 0.002<r?0.05, 1?a?1.1, 0<x?0.02, 0?y?0.005, and a<1+3r; M is a doping element; and N is a coating element. A method for making the lithium cobalt metal oxide powder as described above and a method for determining a content of Co3O4 therein are further provided. The material made in the present disclosure has an excellent electrochemical performance.

Abstract: The present disclosure provides a superparamagnetism-modified and neutrophil exosome biomimetic vesicle-based biological preparation for drug delivery, and a preparation method thereof, belonging to the technical field of engineered nanovesicle drug loading systems. The superparamagnetism-modified and neutrophil exosome biomimetic vesicle-based biological preparation for drug delivery prepared by the preparation method acts on tumor cell lines. It is found that the superparamagnetism-modified and neutrophil exosome biomimetic vesicle-based biological preparation for drug delivery can specifically target tumor cells, induce tumor cell apoptosis, and inhibit tumor growth. The biological preparation significantly extends a survival time of mice and improves an efficacy of drugs against cancers.

Abstract: The present disclosure provides a three-dimensional alkynyl-containing porous aromatic framework polymer and a preparation method and use thereof. The polymer has a structure represented by Formula I: The preparation method includes: under a protective atmosphere, mixing tetrakis(p-bromophenyl)methane, 1,3,5-triethynyl benzene, a catalyst and an amine solvent, and subjecting to a Sonogashira-Hagihara coupling reaction to obtain the three-dimensional alkynyl-containing porous aromatic framework polymer having the structure represented by Formula I.

Abstract: An energy-saving portable dryer for digestive endoscope is disclosed, including a box and a top cover. The box is a hollow shell structure, and the top cover covers the upper port of the box to form a sealed environment. The upper end of the top cover is provided with a controller to control the operation of the device. The box is internally provided with heating tubes. The box is provided with a water inlet and drainage mechanism. The bottom end of the box is provided with a liquid heater to heat the disinfection solution in the box to generate hot vapor. The top cover and the box are installed and disassembled through a fixed mechanism. The energy-saving portable dryer for digestive endoscope has the characteristics of energy saving and high efficiency. And its effect of disinfection and sterilization is better, which increases the practicability.

Abstract: The present disclosure discloses a cathode composite material for a lithium-ion battery (LIB), and a preparation method thereof. The cathode composite material for an LIB is composed of a lithium-containing matrix and a three-layer coating layer coated on a surface of the matrix, where the three-layer coating layer includes a lithium-deficient matrix material layer, a lithium-deficient lithium cobalt phosphate (LCP) layer, and a cobalt phosphate layer in sequence from inside to outside. The cathode composite material of the present disclosure can reduce the oxidation of a highly-delithiated cathode material to an electrolyte under high voltage, and has a high energy density.

Abstract: A high voltage lithium nickel cobalt manganese oxide precursor is provided in the present disclosure. Primary particles of the lithium nickel cobalt manganese oxide precursor are in a clustered “petals” configuration. The “petal” has a sheet shape. A secondary particle of the lithium nickel cobalt manganese oxide precursor has a spherical structure with a loosened interior. A method for making the high voltage lithium nickel cobalt manganese oxide precursor is further provided in the present disclosure. In the method, through the unique design of the reaction atmosphere in combination with advantages of high-low pH phase separation as well as the appropriate matching between the output power and flow rates, the lithium nickel cobalt manganese oxide precursor having “petal-like” and sheet shaped primary particles and spherical and porous secondary particles is made.

Abstract: The technology of this application relates to a memory management method and apparatus. When garbage collection is performed by using the method, stored information about a first reference cycle is first obtained, where the first reference cycle is a cyclic reference formed by a plurality of objects, and the information about the first reference cycle includes the plurality of objects in the first reference cycle and a reference relationship between the plurality of objects. The method further includes determining that a second reference cycle exists, where information about the second reference cycle matches the information about the first reference cycle, and the information about the second reference cycle includes a plurality of objects in the second reference cycle and a reference relationship between the plurality of objects. The method further includes reclaiming memory occupied by the plurality of objects in the second reference cycle.

Abstract: A method for selective adsorption of lead ions from heavy metal wastewater by electric field enhancement relating to a method for recovering lead ions from heavy metal wastewater. The method aims to solve the technical problems that it is difficult to recover heavy metals from a complex water environment in well-targeted manner and recovery purity is poor because of poor selectivity of the existing adsorbents. The adsorption selectivity to Pb2+ is enhanced under an electric field by applying a tannic acid@graphene oxide conductive aerogel material to water heavy metal electrochemical adsorption system as a conductive adsorbent. In the method, the conductive layer of the tannic acid@graphene oxide conductive aerogel material may be optimized through electrochemical reduction, so that the material has better conductivity, and has better selectivity to lead ions under an electric field.

Abstract: Disclosed is a method for preparing an acid-resistant Zr-metal-organic framework (Zr-MOF) material with selective adsorption of hexavalent chromium, which is specifically a method for preparing a MOF material with selective adsorption of hexavalent chromium. The present invention aims to solve the technical problems that the existing MOFs have poor water stability, is unstable in an aqueous solution, and therefore may structurally collapse. In addition, the micropore characteristics of most MOFs have affected the mass transfer rate of the adsorbate, which in turn limits the industrial application thereof. The MOF of the present invention has excellent water stability and acid resistance, showing a strong adaptability and great potential in treating mostly acidic industrial wastewater.

Abstract: A lithium cobalt metal oxide powder is disclosed in the present disclosure. The lithium cobalt metal oxide powder has a coating structure. The lithium cobalt metal oxide powder includes a lithium cobalt metal oxide matrix. The lithium cobalt metal oxide powder further includes a Co3O4 coating layer. A general formula of the lithium cobalt metal oxide powder is LiaCo1-x-yMxNyO2.rCo3O4, wherein 0.002<r?0.05, 1?a?1.1, 0<x?0.02, 0?y?0.005, and a<1+3r; M is a doping element; and N is a coating element. A method for making the lithium cobalt metal oxide powder as described above and a method for determining a content of Co3O4 therein are further provided. The material made in the present disclosure has an excellent electrochemical performance.

Abstract: A high voltage lithium nickel cobalt manganese oxide precursor is provided in the present disclosure. Primary particles of the lithium nickel cobalt manganese oxide precursor are in a clustered “petals” configuration. The “petal” has a sheet shape. A secondary particle of the lithium nickel cobalt manganese oxide precursor has a spherical structure with a loosened interior. A method for making the high voltage lithium nickel cobalt manganese oxide precursor is further provided in the present disclosure. In the method, through the unique design of the reaction atmosphere in combination with advantages of high-low pH phase separation as well as the appropriate matching between the output power and flow rates, the lithium nickel cobalt manganese oxide precursor having “petal-like” and sheet shaped primary particles and spherical and porous secondary particles is made.

Abstract: The present invention discloses a heavy metal separating device and a parameter determining method. The device includes a plurality of pipe sections and a plurality of adsorbents; the pipe sections each include multilayer pipes; the plurality of pipe sections are connected end to end; each of the pipe sections is coated with one adsorbent; and the adsorbent is coated onto the multilayer pipes of the pipe section. According to the present invention, the adsorbents are coated onto the pipes and supporting plates, so that heavy metals are separated in the wastewater conveying process, the area occupied by wastewater treatment facilities can be greatly reduced, and heavy metal ions in the wastewater can be efficiently separated.

Abstract: Applications of antibodies to MYO5A protein as a biomarker in terms of determining antiphospholipid syndrome. Antibodies to the MYO5A protein include at least one of IgG, IgM or IgA. It can be used to identify primary and secondary antiphospholipid syndrome. At the same time, a reagent kit is provided, which is made of MYO5A protein, to determine whether there is antiphospholipid syndrome by detecting the presence of antibodies to MYO5A protein. The present disclosure, applications of antibodies to MYO5A protein as a biomarker in terms of determining antiphospholipid syndrome, provides a new biomarker to identify antiphospholipid syndrome and a new application direction which is of great significance for the identification of antiphospholipid syndrome.

Abstract: A microphone and its manufacturing method, relating to semiconductor techniques. The microphone comprises a capacitor comprising of a back plate and a vibration film plate, with the vibration film plate comprising a plurality of holes. The holes in the vibration film plate provide a ventilation route for pressured air in the microphone, and thus reduce the pressure on the vibration film plate which otherwise is susceptible to damaged under high air pressure. This inventive concept improves a microphone's acoustic tolerance.

Abstract: A microphone includes a substrate, an opening in the substrate, and a support structure in the opening. The support structure includes a first bracket formed in a closed-loop pattern and a second bracket connecting the first bracket to a periphery of the opening. The support structure in the opening increases the mechanical reliability of the microphone.

Abstract: A microphone and its manufacturing method, relating to semiconductor techniques. The microphone comprises a capacitor comprising of a back plate and a vibration film plate, with the vibration film plate comprising a plurality of holes. The holes in the vibration film plate provide a ventilation route for pressured air in the microphone, and thus reduce the pressure on the vibration film plate which otherwise is susceptible to damaged under high air pressure. This inventive concept improves a microphone's acoustic tolerance.

Abstract: A microphone includes a substrate, an opening in the substrate, and a support structure in the opening. The support structure includes a first bracket formed in a closed-loop pattern and a second bracket connecting the first bracket to a periphery of the opening. The support structure in the opening increases the mechanical reliability of the microphone.

Abstract: In an approach for removing tenant initialization check per tenant for compiled code, a processor receives a request to create a tenant. A processor creates the tenant. A processor marks a current thread of the tenant as not eligible to run just-in-time (JIT) code, wherein the marking indicates that when a method is invoked, a non-JIT version of the method is executed. A processor executes initialization of a first class from an optimization list, wherein the optimization list is a configurable list of classes to be initialized prior to running JIT code. A processor determines that class initialization has been executed for all classes on the optimization list. A processor adjusts the marking to indicate that the current thread is eligible to run JIT code and that the tenant may run JIT code that assumes, without checking, that classes on the optimization list are initialized.

Abstract: In an approach for removing tenant initialization check per tenant for compiled code, a processor receives a request to create a tenant. A processor creates the tenant. A processor marks a current thread of the tenant as not eligible to run just-in-time (JIT) code, wherein the marking indicates that when a method is invoked, a non-JIT version of the method is executed. A processor executes initialization of a first class from an optimization list, wherein the optimization list is a configurable list of classes to be initialized prior to running JIT code. A processor determines that class initialization has been executed for all classes on the optimization list. A processor adjusts the marking to indicate that the current thread is eligible to run JIT code and that the tenant may run JIT code that assumes, without checking, that classes on the optimization list are initialized.

Abstract: In an approach for removing tenant initialization check per tenant for compiled code, a processor receives a request to create a tenant. A processor creates the tenant. A processor marks a current thread of the tenant as not eligible to run just-in-time (JIT) code, wherein the marking indicates that when a method is invoked, a non-JIT version of the method is executed. A processor executes initialization of a first class from an optimization list, wherein the optimization list is a configurable list of classes to be initialized prior to running JIT code. A processor determines that class initialization has been executed for all classes on the optimization list. A processor adjusts the marking to indicate that the current thread is eligible to run JIT code and that the tenant may run JIT code that assumes, without checking, that classes on the optimization list are initialized.