Enhanced Photocatalytic Removal of Direct Yellow 50 by ZnO/MWCNTs Nanocomposite under Solar Light Irradiation through Response Surface Methodology (RSM) Optimization · Alnoor Digital Repository

Title: Enhanced Photocatalytic Removal of Direct Yellow 50 by ZnO/MWCNTs Nanocomposite under Solar Light Irradiation through Response Surface Methodology (RSM) Optimization
Abstract: Photo catalytic degradation of Direct yellow 50 dye DY from aqueous solution utilizing ZnO/ MWCNTs nanocomposite under Irradiation of Solar Light was studied in the research. First, ZnO/MWCNTs nanocomposite was synthesis via hydrothermal method. he integration of MWCNTs into ZnO NPs structure resulted in increased roughness and porosity, thus improve active sites onto nanocomposite, which can enhancement of effective surface area, Characterized via different techniques, like FESEM, TEM, and BET. Response surface methodology (RSM) approach were using in this study. Several factors such as Nano catalyst quantity, concentration of DY dye, was best Optimal conditions to examine the best degradation capacity for DY dye with solar light source. In with light, best degradation capacity was observed at 0.3 g of ZnO/ MWCNTs nanocomposite for concentration 30 mg/L at 25 °C with 1h Irradiation time. Photo catalytic degradation complete after that 60 minutes of solar light irradiation, percent 93.56 % degradation efficiency of DY dye was obtained, Thus, appear capability of nanocomposite to removal of on DY dye from wastewater. As a result, successfully syntheses a new form of ZnO nanoparticles embedded with MWCNTs. ZnO/MWCNTs, which may be utilized photocatalytic degradable of DY dye. According degradation results, DY dye might be effectively degradation from aqueous solutions utilizing ZnO/ MWCNTs nanocomposite.
Scientific Type: غير معروف
Link: https://www.ajchem-a.com/article_202336.html
Journal volume: Volume 8, Issue 1
Collaboration type: مشترك
Publish Date: January 1, 2025
Participated Universities (Publication): Alnoor University
Scopus status: In Scopus
Scopus index year: 2 024
Scopus quarter: 2
Scopus citation score: 5
Clarivate status: Not In Clarivate
Pub. Med. status: Not In PubMed
Author (Publication): ذرى زياد فتح الله حسن
Journal (Publication): Advanced Journal of Chemistry, Section A
Publisher (Publication): Sami Publishing Company
ISSN: 2645-7768
Country (Publication): Iran
Country type: عالمية
College (Publication): College of Pharmacy
Departement (Publication): Department of Pharmacy

Media: Academic paper