Bio-resistant construction materials to enhance the ecological sustainability of structures and buildings

Abstract Current attention is mostly directed towards the matter of ensuring safe human habitation in residential and commercial settings, as well as in other biological categories. Microorganisms that arise in the soil, with a little atmospheric movement, are carried over vast distances and build up in enclosed spaces. Under these circumstances, minuscule organisms can lead to allergies, mycotic lung infections, Sick Building Syndrome (SBS), and the degradation of construction items and materials. This essay explores the potential environmental benefits of using biocidal chemicals and materials in buildings. In the construction and maintenance of buildings and structures, composite materials composed of several binders are used. The detailed study materials and methodologies are provided. Teflex-modified gypsum composites are classified as materials in further development. Teflex's capacity to bind to cell walls and membranes, penetrate cell nuclei, and suppress cellular enzymes allows it to effectively prevent bacterial growth. Empirical investigations have proven the most effective quantitative composition of the biocidal additive. Utilising biocidal gypsum composites enhances the environmental conditions in urban buildings and structures.This study aimed to improve building conditions by integrating stable biological products and gypsum compounds with biocidal additives. To manufacture a modified gypsum plaster, the work employs TFLEX, a guanidine actuator-based chemical that activates biological enzymes in nocturnal bacteria when added to cell walls and cells. The number of examples showcasing the substantial significance of biosides in improving programming environment optimization has increased.Innovative composite materials with biocidal additives are used in this work to eliminate bacteria and fungi in buildings and structures, without the need of pesticides, therefore reducing biological degradation. The importance of pre-designing construction materials to prevent biological harm is emphasized in this paper. A novel approach is suggested for the direct integration of biocidal chemicals into construction materials, therefore extending their durability and protecting the indoor environment.