Abstract: Disclosed is a method for preparing a three-dimensional porous nano composite cooling film in large scale. The cooling film is prepared from 0.1-0.5 parts of cellulose acetate, 1-5 parts of water, 20-100 parts of acetone, an additive, and 10-20 parts of nano microspheres through a cooperative formulation of cellulose acetate, nano microsphere materials and the additive. The composite cooling film is obtained by self-deposition of cellulose acetate and nano microspheres, and liquid volatilization during film forming process leads to formation of the three-dimensional porous structure. The film has an effect of enhancing radiation of infrared heat into space, which could significantly reduce a temperature of a substrate surface and achieve rapid and strong cooling. The film could achieve effective cooling without external power and other active cooling equipment, with or without sunlight.

Abstract: Embodiments of the present disclosure provide a screen projection control method and device, and an electronic device. The method includes: acquiring touch information sent by a second device, where the touch information includes a touch type, a coordinate position of a touch point on a screen of the second device, and a screen rotation direction of the second device, the screen of the second device and a screen of a first device display a same interface; and determining, according to the screen rotation direction of the second device, a target position on the screen of the first device corresponding to the coordinate position of the touch point, where the target position is a position for performing a touch operation corresponding to the touch type.

Abstract: A cleaning robot for swimming pools includes a charging assembly, a floating assembly, a power assembly and a cleaning assembly. The charging assembly includes a charging mount provided with a first charging induction portion and a first magnet set. The floating assembly includes a floating body, and a second charging induction portion and a second magnet set are disposed on a lateral portion of the floating body. The floating assembly is attracted with the first magnet set of the charging assembly through the second magnet set, and the first charging induction portion and the second charging induction portion are arranged to charge the power assembly after being turned on. The floating assembly and the cleaning assembly are provided with a first and a second travel module for driving the floating assembly and the cleaning assembly respectively. The floating assembly is connected to the cleaning assembly through a power supply cable.

Abstract: Embodiments of the present disclosure provide an information input method, a system of a cloud input method and a client, where the method includes: generating an input method startup instruction according to received indication information, where the indication information is generated when a focus of an information input box is acquired; sending the input method startup instruction, where the input method startup instruction is used to startup a local input method; receiving text content, where the text content is content input by using the local input method; and submitting the text content to the information input box for display. According to the embodiments of the present disclosure, the local input method of the client can be called through the input method startup instruction, and a user uses the local input method commonly used by the client to input information, which greatly improves convenience of operations.

Abstract: The present invention provides a laminate structure in which the properties of a single-walled CNT, which are susceptible to surrounding environment, are stabilized by protecting the surface of the single-walled CNT with a proper substance, and/or another property is imparted to the single-walled CNT. The present invention provides a structure which comprises a first single-walled carbon nanotube having a length of 50 nm or longer, preferably 100 nm or longer, and a second layer laminated on the first single-walled carbon nanotube, wherein the second layer comprises at least one substance selected from the group A consisting of first boron nitride, first transition metal dichalcogenide, second carbon, first black phosphorus and first silicon.

Abstract: The present invention provides a laminate structure in which the properties of a single-walled CNT, which are susceptible to surrounding environment, are stabilized by protecting the surface of the single-walled CNT with a proper substance, and/or another property is imparted to the single-walled CNT. The present invention provides a structure which comprises a first single-walled carbon nanotube having a length of 50 nm or longer, preferably 100 nm or longer, and a second layer laminated on the first single-walled carbon nanotube, wherein the second layer comprises at least one substance selected from the group A consisting of first boron nitride, first transition metal dichalcogenide, second carbon, first black phosphorus and first silicon.

Abstract: This disclosure provides a computer implemented method comprising: determining whether an input to a program matches a predetermined scenario; and recording, at least partially in response to the determination that the input matches the predetermined scenario, execution information of execution of at least part of the program, the execution of the at least part of the program being in response to the input.

Abstract: This disclosure provides a computer implemented method comprising: determining whether an input to a program matches a predetermined scenario; and recording, at least partially in response to the determination that the input matches the predetermined scenario, execution information of execution of at least part of the program, the execution of the at least part of the program being in response to the input.

Abstract: An aqueous tumor-targeting liposome nanoparticle composition comprises an aqueous dispersion of liposome nanoparticles. The nanoparticles preferably encapsulate an anti-cancer chemotherapeutic agent, which can be added to a pre-formed liposome composition or can be incorporated in the liposomes during the formation of the liposomes. The liposome nanoparticles comprise a legumain-targeting lipid admixed with one or more other micelle or vesicle-forming lipid materials in the form of nanoparticulate liposomes dispersed in an aqueous carrier. A preferred tumor-targeting liposome nanoparticle composition comprises a legumain-targeting lipid component and polyethylene glycol-conjugated lipid component. The legumain-targeting lipid component comprising a hydrophobic lipid portion covalently attached to a legumain-binding moiety.

Abstract: It discloses a transformant for weight loss and lipid reduction, which is obtained by recombining and substituting human oxyntomodulin gene into thymidylate synthase gene of L.lactis genome. Wherein the recombinant substitution is homologous recombination by artificially synthesizing gene sequences, making the sequence flanking the human oxyntomodulin gene derived from the homologous sequences of thymidylate synthase gene in the L.lactis genome, then the gene fragments are electroporated into L. lactis, to carry out homologous recombination.

Abstract: Disclosed are a method for producing a carbon nanotube (CNT) whereby, in the local synthesis of CNTs, a high resolution, a low cost, easiness in production and mass production capability can be established at the same time; and a two-dimensionally patterned CNT obtained thereby.

Abstract: This disclosure provides a computer implemented method comprising: determining whether an input to a program matches a predetermined scenario; and recording, at least partially in response to the determination that the input matches the predetermined scenario, execution information of execution of at least part of the program, the execution of the at least part of the program being in response to the input.

Abstract: It discloses a transformant for weight loss and lipid reduction, which is obtained by recombining and substituting human oxyntomodulin gene into thymidylate synthase gene of L. lactis genome. Wherein the recombinant substitution is homologous recombination by artificially synthesizing gene sequences, making the sequence flanking the human oxyntomodulin gene derived from the homologous sequences of thymidylate synthase gene in the L. lactis genome, then the gene fragments are electroporated into L. lactis, to carry out homologous recombination.

Abstract: This disclosure provides a computer implemented method comprising: determining whether an input to a program matches a predetermined scenario; and recording, at least partially in response to the determination that the input matches the predetermined scenario, execution information of execution of at least part of the program, the execution of the at least part of the program being in response to the input.

Abstract: An aqueous tumor-targeting liposome nanoparticle composition comprises an aqueous dispersion of liposome nanoparticles. The nanoparticles preferably encapsulate an anti-cancer chemotherapeutic agent, which can be added to a pre-formed liposome composition or can be incorporated in the liposomes during the formation of the liposomes. The liposome nanoparticles comprise a legumain-targeting lipid admixed with one or more other micelle or vesicle-forming lipid materials in the form of nanoparticulate liposomes dispersed in an aqueous carrier. A preferred tumor-targeting liposome nanoparticle composition comprises a legumain-targeting lipid component and polyethylene glycol-conjugated lipid component. The legumain-targeting lipid component comprising a hydrophobic lipid portion covalently attached to a legumain-binding moiety.

Abstract: A DNA vaccine suitable for eliciting an immune response against cancer cells comprises a DNA construct operably encoding a cancer-associated Inhibitor of Apoptosis-family protein and an immunoactive gene product, such as a cytokine or a ligand for a natural killer cell surface receptor, in a pharmaceutically acceptable carrier. A preferred cytokine is CCL21. Preferred ligands for a natural killer cell surface receptor include human MICA, human MICB, human ULBP1, human ULBP2, and human ULBP3. The cancer-associated Inhibitor of Apoptosis (IAP)-family protein is preferably a survivin protein or livin protein. Method of inhibiting tumor growth by administering the vaccine of the invention to a mammal is also described.

Abstract: The present invention provides an aqueous tumor-targeting liposome nanoparticle composition comprising an aqueous dispersion of liposome nanoparticles. The nanoparticles preferably encapsulate an anti-cancer chemotherapeutic agent, which can be added to a pre-formed liposome composition or can be incorporated in the liposomes during the formation of the liposomes. The liposome nanoparticles comprise a legumain-targeting lipid admixed with one or more other micelle or vesicle-forming lipid materials in the form of nanoparticulate liposomes dispersed in an aqueous carrier. A preferred tumor-targeting liposome nanoparticle composition comprises (a) a legumain-targeting lipid component, (b) a zwitterionic lipid component; (c) an amino-substituted lipid component; (d) a neutral lipid component; and (e) polyethylene glycol-conjugated lipid component. The legumain-targeting lipid component comprising a hydrophobic lipid portion covalenetly attached to a legumain-binding moiety.

Abstract: The present invention provides an aqueous tumor-targeting liposome nanoparticle composition comprising an aqueous dispersion of liposome nanoparticles. The nanoparticles preferably encapsulate an anti-cancer chemotherapeutic agent, which can be added to a pre-formed liposome composition or can be incorporated in the liposomes during the formation of the liposomes. The liposome nanoparticles comprise a legumain-targeting lipid admixed with one or more other micelle or vesicle-forming lipid materials in the form of nanoparticulate liposomes dispersed in an aqueous carrier. A preferred tumor-targeting liposome nanoparticle composition comprises (a) a legumain-targeting lipid component, (b) a zwitterionic lipid component; (c) an amino-substituted lipid component; (d) a neutral lipid component; and (e) polyethylene glycol-conjugated lipid component. The legumain-targeting lipid component comprising a hydrophobic lipid portion covalently attached to a legumain-binding moiety.

Abstract: A message from a source computer that includes message information indicating a destination target computer system to receive the message, is received. The received message in a storage component, is stored. An entry to a virtual queue for the received message, wherein the entry in the virtual queue points to a memory address of the received message that is stored in the message component, is created. Responsive to determining that the destination target computer system is available, the received message to a physical queue component and assigning an expiration condition to the received message is enqueued. The enqueued message to the destination target computer system is transmitted. Responsive to determining that the expiration condition for the received message is met, the received message from the physical queue is removed.

Abstract: Disclosed are a method for producing a carbon nanotube (CNT) whereby, in the local synthesis of CNTs, a high resolution, a low cost, easiness in production and mass production capability can be established at the same time; and a two-dimensionally patterned CNT obtained thereby.