Disclosed are a chitin/graphene composite sponge and a preparation method and a use thereof. The method comprises mixing and ball-milling a certain amount of flake graphite and chitin, dissolving a mixture of the flake graphite and the chitin in a NaOH/urea solvent, performing centrifugal separation, dispersing evenly, cross-linking with an epichlorohydrin cross-linking agent, standing, dialyzing, and freeze-drying, thus obtaining the chitin/graphene composite sponge.

Disclosed are a chitin/graphene composite sponge and a preparation method and a use thereof. The method comprises mixing and ball-milling a certain amount of flake graphite and chitin, dissolving a mixture of the flake graphite and the chitin in a NaOH/urea solvent, performing centrifugal separation, dispersing evenly, cross-linking with an epichlorohydrin cross-linking agent, standing, dialyzing, and freeze-drying, thus obtaining the chitin/graphene composite sponge.

An adhesive layer for use in a transducer apparatus, the adhesive layer extending in an x-y plane and having an adhesive layer outer edge, the adhesive layer including: an adhesive matrix material; a plurality of electrically conductive particles embedded at least partially within the adhesive matrix material forming a conductive adhesive region of the adhesive layer; and at least one non-conductive edge portion comprising an adhesive devoid of electrically conductive particles, the at least one non-conductive edge portion being electrically non-conductive; wherein, when viewed in a direction perpendicular to the x-y plane, a first non-conductive edge portion is located adjacent to and extends along an outer edge of the conductive adhesive region and forms at least a portion of an outer perimeter of the adhesive layer.

The present invention relates to an alkyl chitosan-graphene oxide composite sponge and preparation method and application thereof. The alkyl chitosan-graphene oxide composite sponge provided by the present invention includes alkyl chitosan and graphene oxide absorbed on the alkyl chitosan, and the adsorbing capacity of the graphene oxide is 3-28 wt. %. In the present invention, alkyl chitosan is used as a matrix to combine graphene oxide and alkyl chitosan; the obtained composite sponge has excellent hemostatic performance and blood absorption capacity. Results of embodiments indicate that the in-vitro whole blood coagulation time is less than 58 s, the hemostasis time of a rabbit femoral artery hemorrhage model is less than 155 s, the hemorrhage mass is less than 5.4 g, and the hemostatic effect is superior to a pure alkyl chitosan sponge or graphene oxide powder when the composite sponge provided by the present invention is used for hemostasis.

The present invention relates to an alkyl chitosan-graphene oxide composite sponge and preparation method and application thereof. The alkyl chitosan-graphene oxide composite sponge provided by the present invention includes alkyl chitosan and graphene oxide absorbed on the alkyl chitosan, and the adsorbing capacity of the graphene oxide is 3-28 wt. %. In the present invention, alkyl chitosan is used as a matrix to combine graphene oxide and alkyl chitosan; the obtained composite sponge has excellent hemostatic performance and blood absorption capacity. Results of embodiments indicate that the in-vitro whole blood coagulation time is less than 58 s, the hemostasis time of a rabbit femoral artery hemorrhage model is less than 155 s, the hemorrhage mass is less than 5.4 g, and the hemostatic effect is superior to a pure alkyl chitosan sponge or graphene oxide powder when the composite sponge provided by the present invention is used for hemostasis.

An occlusive device and a method of embolizing or occluding a bodily lumen by injecting or otherwise implanting the occlusive device are described. The device includes a polymer or polymer composition and a carbon-based material or nanomaterial such as graphene. The device may be used for sterilizing a human or animal by implanting the device into the vas deferens, fallopian tubes, or uterus, but may also be used to occlude any other bodily ducts, interstitial space, or organs.

One aspect of the present invention is concerned with a substrate material for epidermal use on a subject, e.g. human subject. The substrate material has a matrix ingredient of polyvinyl alcohol (PVA), a plasticizing agent of glycerol (gly), and a conductive material of graphite, carbon black, and water. Another aspect of the present invention is concerned with an electronic apparatus having such a substrate material and an electronic device for recording electrical signals received through the substrate material, wherein the electrical signals are indicative of one or more physiological or physical parameters of a subject on which the electronic apparatus is applied or one or more parameters of the surroundings to the subject. Yet a further aspect of the present invention is concerned with a method of making a substrate material.