BIOLOGICAL, ELECTRONIC-FILTER, INFLUX AND THEORETICAL PRACTICALITIES OF 2-CHLORO-6-NITROANILINE (2C6NA) CRYSTALS FOR BIOMEDICAL AND MICROELECTRONICS TASKS

Abstract

The effect and impact of biomedical, electronic, and computational analysis are more on 2C6NA crystals and are based on aniline by means of the anticancer,antibacterial, antifungal, the structural effectiveness by computational and influxof 3.4679 microns influx data. The efficacy is by HeLa cell lines; for the cervicalcancer and the E. coli, B. subtilis, K. pneumoniae, A. niger, and A. terreus andA. flavus. DPPH, FRAP, and antidiabetic utility of the 2C6NA nanocrystallinespecimen are portrayed with conversion of milling with 43-nm scaling and the structure effectiveness by means of software and optoelectronic filter utility is alsodiscussed. The crystal is grown by evaporation method and properly milled to nmscalings. Aniline plays a major impact for bioactivity and in influx datum. Theleading value of filter is applied to electronic functions and other NLO use, as wellas biocompatibility of the titled crystal sample and is reported for these studies asa novel work and in the future can be preceded for harboring process.