Your search keyword '"Al-amri, Saud S."' showing total 3 results

1. Interface engineered Ag-r-GO-CuFe2O4-Fe3O4 heterojunction an efficient photocatalyst for water treatment and toxicity study in Trifolium plants.

Author

Senthilmurugan, Balasurya, Okla, Mohammad K., Abdel-Maksoud, Mostafa A., Al-Amri, Saud S, Alaraidh, Ibrahim A., Alatar, Abdulrahman A., H. A. Hassan, Abdelrahim, Sheteiwy, Mohamed S., AbdElgawad, Hamada, and Sudheer Khan, S.

Subjects

HETEROJUNCTIONS, WATER purification, SOLAR cells, ELECTRON traps, CLOVER, PHOTOCATALYSTS, CATALYTIC activity

Abstract

[Display omitted] Herein, we report the Ag-r-GO-CuFe 2 O 4 -Fe 3 O 4 nanocomposite (Ag-r-GO-CFO-FO NCs) for effective photocatalytic activity against organic pollutants. Herein the O-S scheme mechanism is achieved by the formation of Ohmic (O) and Schottky (S) junctions. The two interfacial charge carriers for accelerated phono formation and mass transfer and thus increase in the light-harvesting with electron traps for the gerenation of reactive oxygen species (ROS). The photocatalytic activity of the constructed Ag-r-GO-CFO-FO NCs was tested against organic dyes (red RB, orange 2R and black B) and the degradation efficiency was calculated to be 99.8, 99.3 and 99.8% respectively. The radical quenching shows the formation of •OH and O 2 •- which plays major role in the mineralization of organic pollutants. Total organic carbon (TOC) after the degradation of red RB, orange 2R and black B by Ag-r-GO-CFO-FO NCs was 2.1%, 1.6% and 1.9% respectively, which shows the complete mineralization of the pollutants. In addition, the real-time application of the photocatalytic efficiency of NCs was performed against the effluent collected from dying industrial (which is a combination of red RB, orange 2R and black B) and the degradation efficiency was 98.2%. Toxicity of the NCs was performed against maize plants, the results show that the NCs are non-toxicity towards plants and can be used for real-time application. The efforts provide evidence of the combination of two interfacial charge carriers (O-S scheme) to boost the catalytic activity of the catalyst for water treatment. [ABSTRACT FROM AUTHOR]

Published

2024

2. In situ construction of ZnFe2O4 nanospheres on CoO nanosheets for durable photodegradation of organics: kinetics and mechanistic insights.

Author

Okla, Mohammad K., Subhiksha, V., Akshhayya, C., Al-amri, Saud S., Alaraidh, Ibrahim A., Al-ghamdi, Abdullah A., Soufan, Walid, Abdel-Maksoud, Mostafa A., Aufy, Mohammed, Studenik, Christian R., and Khan, S. Sudheer

Subjects

NANOSTRUCTURED materials, METHYLENE blue, HETEROJUNCTIONS, WASTE recycling, PHOTODEGRADATION, PHOTOCATALYSTS, VISIBLE spectra

Abstract

The development of low-cost, efficient and sustainable technology is considered to be of paramount for the efficient degradation of toxic pollutants. The research in this report constructs an S-scheme heterojunction CoO/ZnFe2O4 nanocomposite (NCs) with outstanding photocatalytic performance on methylene blue (MB) dye degradation under visible light illumination. Several techniques were used for nanoparticles (NPs) and NCs to determine their morphological, structural, and optical properties. The CoO/ZnFe2O4 NCs (88.5%) exhibited excellent photocatalytic activity compared to the pristine CoO (66.8%) and ZnFe2O4 (64.3%). The total organic carbon (TOC) analysis confirmed that the MB dye was completely mineralised by the as-prepared NCs. From the results of the GC-MS/MS analysis, a possible intermediate formation and degradation pathway was identified. The h+ and ˙OH are the free radicals which primarily dominate the photocatalytic process. A recyclability study performed on the CoO/ZnFe2O4 NCs revealed that it was an extremely stable catalyst, even after six cycles, without substantial decreases in its degradation activity. The intermediate toxicity was predicted using ECOSAR software and the results confirmed the non-toxicity of the end product formed during the degradation of the MB dye. [ABSTRACT FROM AUTHOR]

Published

2022

3. Construction of p-n-p nano heterojunction through coupling La2O3, (BiO)2CO3 and Ag3PO4 for effective photocatalytic degradation of doxycycline: Insights into mechanism, pathway and intermediate toxicity evaluation.

Author

Sivaranjani, P.R., Subhiksha, V., Okla, Mohammad K., Janani, B., Abdel-Maksoud, Mostafa A., Al-Amri, Saud S., Alaraidh, Ibrahim A., Alatar, Abdulrahman A., and Khan, S. Sudheer

Subjects

IRRADIATION, TOXICITY testing, PHOTODEGRADATION, DOXYCYCLINE, HETEROJUNCTIONS, REACTIVE oxygen species, HOLLIDAY junctions

Abstract

The present work is centred around the development of La 2 O 3 /(BiO) 2 CO 3 /Ag 3 PO 4 (LBA), a p-n-p nano-heterojunction to photodegrade doxycycline under visible light irradiation. Here, ultrasonication assisted co-precipitation method was employed to synthesize the photocatalyst. The photocatalyst was characterized using different analysis such as SEM, TEM, elemental mapping, XRD, XPS, FTIR, Raman, BET, DRS, PL and EIS which confirmed the successful fabrication of LBA and their excellent ability to refrain the e−/h+ recombination owing to the construction of the heterojunction. LBA was found to degrade DOX by 91.75 % with the high mineralization of 87.23%. The impact of the reaction parameters influencing the photodegradation process including the concentration of the NCs and DOX, pH and the influence of the commonly present anions were studied. The stability and reusability of the LBA was assessed through subjecting it to four cycles of photodegradation of DOX. In addition, the recovered LBA was characterized through XPS and XRD analysis to confirm the particles stability and reusability. The active participation of the photogenerated charges and the reactive oxygen species were identified through the scavenging assay and ESR analysis. Further, GC-MS/MS analysis was performed to put forward a plausible photodegradation pathway. The toxicity of the end products as well as the intermediates was predicted through ECOSAR software. [Display omitted] • LBA nano-hetrojunctionwas prepared via ultrasonication assisted co-precipitation method. • The photodegradation of doxycycline was found to be 91.75 %. • •OH and h+ were primarily involved in photocatalytic reactions. • The LBA nano-hetrojunction exhibited excellent photostability and reusability. • The degradation pathway was elucidated by GC-MS/MS analysis. [ABSTRACT FROM AUTHOR]

Published

2024