Abstract: The disclosure relates to a method, apparatus, readable medium, and electronic device for live stream interaction. The method includes: in accordance with displaying of a first control at a first target position of a live stream interface, obtaining a first duration during which a user watches the live stream interface; in accordance with a determination that the first duration is greater than or equal to a first predetermined duration threshold, switching the first control to a second control, and displaying the second control at a second target position of the live stream interface; and in response to a first operation command performed by the user on the second control, allocating a virtual resource to the user. In this way, interaction modes of a live stream room are enriched, and an activity level of the live stream room can be improved.

Abstract: Provided are a porous silicone resin and a light-weight flexible flame-retardant composite material, belonging to the technical field of nano-porous materials. The porous silicon resin is prepared from a porous silicon resin precursor solution by means of curing and drying processes. The porous silicone resin precursor solution includes a flame retardant, a surfactant, a siloxane monomer, a catalyst, an auxiliary agent and a solvent. The porous silicone resin precursor solution is obtained by firstly dissolving the flame retardant and the surfactant in the solvent, and then adding the siloxane monomer, the catalyst and the auxiliary agent and mixing them uniformly. The porous silicone resin and the light-weight flexible flame-retardant composite material prepared therefrom have the excellent properties of high porosity, high flame retardancy, high elasticity and high strain.

Abstract: The method is performed by means of a pair of electrodes that are arranged at a distance and within a sensing zone. A nucleic acid capture molecule with an uncharged backbone and a nucleotide sequence that is at least partially complementary to at least a portion of a strand of the target nucleic acid molecule, is immobilised on an immobilisation unit. The immobilisation unit, which is arranged within the sensing zone, is contacted with a solution suspected to comprise the target nucleic acid molecule, which hybridizes to the nucleic acid capture molecule. An activation agent is added, which has an electrostatic net charge complementary to the net charge of the target nucleic acid molecule. It associates to the complex of nucleic acid capture molecule and target nucleic acid molecule. Added is a water soluble polymer with at least one polymer strand and with an electrostatic net charge that is complementary to the net charge of the activation agent. Thus the polymer associates to the activation agent.

Abstract: The invention provides a method of electrically detecting a biological analyte molecule by means of a pair of electrodes. The electrodes are arranged at a distance from one another within a sensing zone. A capture molecule, which has an affinity to the analyte molecule and which is capable of forming a complex with the analyte molecule, is immobilised on an immobilisation unit. The immobilisation unit is contacted with a solution suspected to comprise the analyte molecule. The analyte molecule is allowed to form a complex with the capture molecule. The invention also provides a probe defined by a nanoparticulate tag that comprises or consists of electrically conducting matter that is capable of chemically interacting with the analyte molecule. In the method of the invention the electrically conducting nanoparticulate tag is added. Thereby the electrically conducting nanoparticulate tag is allowed to associate to the complex formed between the capture molecule and the analyte molecule.