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Abstract
Supramolecular interaction is a kind of intermolecular interaction with molecular recognition ability. Based on molecular recognition, the design, synthesis, and assembly of novel supramolecular functional materials will provide theoretical guidance and new application systems for analytical science. It has made great contributions to the common development of life sciences, materials sciences, and environmental sciences. This article aims at the application of supramolecular nanomaterial adsorbents in indoor volatile organic pollutants control in hot and humid regions. This article sets up three experimental groups and a control group. The experimental group is to apply supramolecular nanomaterial adsorbents to Northeast China. Among the volatile organic pollutants in cold regions, the experimental group 2 applied the supramolecular nanomaterial adsorbents to indoor volatile organic pollutants in the humid and hot regions of the south. The experimental three groups of supramolecular nanomaterial adsorbents were applied in temperate environments. The control group applied general materials to study the effect of purification, considered purification time, efficiency, and economic benefits, and used mathematical statistics and mathematical analysis to classify and analyze and use big data. Use these methods to fit the data. Experimental data shows that the application of supramolecular nanomaterial adsorbents in indoor volatile organic pollutants control in hot and humid areas has a good effect and can effectively achieve the purpose of purifying organic pollutants. Experimental data shows that the application of supramolecular nanomaterial adsorbents in indoor volatile organic pollutants control in hot and humid areas has a broad application prospect. Its purification efficiency of organic pollutants has increased by about 23.5% and its economic efficiency has increased by about 21.3%. The application plays a guiding rolein the purification of volatile organic pollutants.