Abstract: The present disclosure relates to the technical field of agricultural microorganisms and crop cultivation and more specifically relates to a compound mycorrhizal fungus growth promoting agent and an agricultural-photovoltaic complementary planting method for Dioscorea composita. The compound mycorrhizal fungus growth promoting agent for Dioscorea composita includes Glomus mosseae, Streptomyces chartreusis and plant growth promoting rhizobacteria, and can greatly improve photosynthesis of Dioscorea composita under a photovoltaic panel and promote growth and development of Dioscorea composita. The compound mycorrhizal fungus growth promoting agent is used, an unoccupied land under a solar photovoltaic panel is utilized, and a high-ridge close planting method is used to combine a solar photovoltaic industry and Dioscorea composita planting. The whole planting process is easy to operate, the cost is low, and three-dimensional value-added utilization of land is achieved.

Abstract: The present disclosure relates to the technical field of agricultural microorganisms and crop cultivation and more specifically relates to a compound mycorrhizal fungus growth promoting agent and an agricultural-photovoltaic complementary planting method for Dioscorea composita. The compound mycorrhizal fungus growth promoting agent for Dioscorea composita includes Glomus mosseae, Streptomyces chartreusi and plant growth promoting rhizobacteria, and can greatly improve photosynthesis of Dioscorea composita under a photovoltaic panel and promote growth and development of Dioscorea composita. The compound mycorrhizal fungus growth promoting agent is used, an unoccupied land under a solar photovoltaic panel is utilized, and a high-ridge close planting method is used to combine a solar photovoltaic industry and Dioscorea composita planting. The whole planting process is easy to operate, the cost is low, and three-dimensional value-added utilization of land is achieved.

Abstract: A method for preparing fluorescent-encoded microspheres coated with metal nanoshells is disclosed herein. By using SPG method, metal nano-material modified with a certain ligand is used as a new surfactant in the emulsification process, and different kinds and different amounts of fluorescent materials are doped into polymer microspheres to prepare fluorescent-encoded microspheres with different fluorescent-encoded signals and uniformly coated metal nanoshells in one step. The prepared fluorescent-encoded microsphere comprises a metal nanoshell, a polymer, and a fluorescent-encoded material. The fluorescent-encoded microsphere has a particle size of 1 ?m˜20 ?m, CV of less than 10%, which can be used for protein/nucleic acid detection.

Abstract: Disclosed are a detection method and detection system using suspension liquid biochip detection. The detection method using suspension liquid biochip comprises the following steps: an excitation step and a signal acquisition step. In the excitation step, a laser light emitted by a single laser device is used to excite a classification fluorescence of nanocrystalline fluorescent microspheres and a report fluorescence of an object to be detected; and in the signal acquisition step, fluorescence detection signals are obtained through multiple acquisition channels, respectively. In the present invention, the classification fluorescence in the nanocrystalline fluorescent microspheres and the report fluorescence in the object to be detected in a sample are excited by a single laser device, which is convenient for operation and reduces the production cost of the system, thereby reducing the detection cost.

Abstract: The present invention provides a device for indicating a test result of a specimen using recognizable symbols, including a reagent strip, wherein the reagent strip includes a detection zone including an analyte binding area and a positive control area, and the positive control area includes a first-layer reagent and a second-layer reagent; the first-layer reagent is a reagent that becomes transparent when exposed to water, the second-layer reagent is a colored reagent, and the first-layer reagent is not transparent when dry but becomes transparent when wetted; or a device for indicating a test result of a specimen using recognizable symbols, which includes a reagent strip, and the reagent strip includes a detection zone including an analyte binding area and a positive control area; wherein the positive control area includes a light-emitting element which emits light after energizing, and the light emitted by the element is projected to the positive control area, thereby binding to the analyte binding area to

Abstract: A method for preparing fluorescent-encoded microspheres coated with metal nanoshells is disclosed herein. By using SPG method, metal nano-material modified with a certain ligand is used as a new surfactant in the emulsification process, and different kinds and different amounts of fluorescent materials are doped into polymer microspheres to prepare fluorescent-encoded microspheres with different fluorescent-encoded signals and uniformly coated metal nanoshells in one step. The prepared fluorescent-encoded microsphere comprises a metal nanoshell, a polymer, and a fluorescent-encoded material. The fluorescent-encoded microsphere has a particle size of 1 ?m˜20 ?m, CV of less than 10%, which can be used for protein/nucleic acid detection.