Autor: |
Areche FO; Universidad Nacional de Huancavelica, Huancavelica, Peru., Mamani CMC; National University of Jaen, Jaen, Peru., Cárdenas JAL; José Faustino Sánchez Carrión National University, Huacho, Peru., Sumarriva-Bustinza LA; National University of Education Enrique Guzmán y Valle, Lima, Peru., Pastrana PAP; Universidad Nacional de Huancavelica, Huancavelica, Peru., Porras-Roque MS; Jorge Basadre Grohmann National University, Tacna, Peru., Huayapa MAC; National University of Juliaca, Juliaca, Peru., Zea CYH; National University of Juliaca, Juliaca, Peru., Rios OGV; César Vallejo University, Lima, Peru., Montes JES; Santiago Antunez de Mayolo National University, Huaraz, Peru., Paitan-Anticona EN; National University of Central Peru, Huancayo, Peru., Chávez-Sumarriva NL; Scientific University of the Sur, Lima, Peru., Paucarmayta AAM; National University of Central Peru, Huancayo, Peru., Araujo VGS; Universidad Nacional de Huancavelica, Huancavelica, Peru., Paucarmayta MHM; National Intercultural University of the Selva Central Juan Santos Atahualpa, Chanchamayo, Peru., Carrasco SM; Micaela Bastidas National University of Apurimac, Abancay, Peru., Yapias RJM; Altoandina National Autonomous University of Tarma, Tarma, Peru., Paricanaza-Ticona DC; Universidad Nacional de Huancavelica, Huancavelica, Peru. |
Abstrakt: |
Instead of typical household trash, the heavy metal complexes, organic chemicals, and other poisons produced by huge enterprises threaten water systems across the world. In order to protect our drinking water from pollution, we must keep a close eye on the situation. Nanotechnology, specifically two-dimensional (2D) nanomaterials, is used in certain wastewater treatment systems. Graphene, g-C3N4, MoS2, and MXene are just a few examples of emerging 2D nanomaterials that exhibit an extraordinary ratio of surface (m3), providing material consumption, time consumption, and treatment technique for cleaning and observing water. In this post, we'll talk about the ways in which 2D nanomaterials may be tuned to perform certain functions, namely how they can be used for water management. The following is a quick overview of nanostructured materials and its possible use in water management: Also discussed in length are the applications of 2D nanomaterials in water purification, including pollutant adsorption, filtration, disinfection, and photocatalysis. Fluorescence sensors, colorimetric, electrochemical, and field-effect transistors are only some of the devices being studied for their potential use in monitoring water quality using 2D nanomaterials. Utilizing 2D content has its benefits and pitfalls when used to water management. New developments in this fast-expanding business will boost water treatment quality and accessibility in response to rising awareness of the need of clean, fresh water among future generations. |