Rasha A. AbuMousa scite author profile

Chemotherapy, the most commonly used therapeutic method for cancer, has the inherent constraint of low bioavailability. A number of physical cancer therapeutic treatments like radiation, ultrasound, photo-acoustic/photo thermal, microwave therapies are based on locating the afflicted sites with the help of imaging, but the serious drawbacks of these treatment options are that they damage the neighboring normal tissues and/or induce undesired cancer metastasis. In addition, these methods of treatment are very expensive and not in the reach of a common man especially in the developing countries. Therefore, innovative, less invasive and cost effective treatment methods with the help of less toxic drugs have been sought for treating cancer. In this work, photo-catalytic method of killing cancer cells, using the nanostructured silver loaded tungsten oxide (Ag/WO3) as photo-catalysts, in conjunction with broadband UV radiation is presented. Ag/WO3with two different mass ratios of Ag and WO3 (1% Ag/WO3 and 3% Ag/WO3) were synthesized, characterized and these nanostructured materials served as photo-catalysts in the process of killing cancer cells by photo-catalytic method. The advantage of loading Ag in WO3 is quite evident from the observed increase in the photo-catalytic killing of the HeLa cells. This photo-catalytic enhancement was effectively caused by the development of Schottky junction between Ag in WO3, which led to a substantial inhibition of photo-generated charge recombination and also by the stimulation of surface plasmon resonance in silver nanoparticles, which led to the enhanced visible light absorption by the material.

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Recent update on photocatalytic degradation of pollutants in waste water using TiO2-based heterostructured materials

Madkhali

Prasad

Malkappa

et al. 2023

Results in Engineering

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Facile fabrication of graphitic carbon nitride nanosheets and its integrated polyamide hyper-cross-linked TFC nanofiltration membrane with intrinsic molecular porosity for salts and organic pollutant rejection from water

Baig

Waheed

Aljundi

et al. 2021

Journal of Materials Research and Technology

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Investigation of the survival viability of cervical cancer cells (HeLa) under visible light induced photo-catalysis with facile synthesized WO3/ZnO nanocomposite

AbuMousa

Baig

Gondal

et al. 2020

Saudi Journal of Biological Sciences

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Environmental remediation applications of MxOy-gC3N4 nanocomposites (M = Mg, Ti, and Zn): Photocatalytic activity for Indigo carmine dye degradation

Aissa

Modwi

Taha

et al. 2023

Diamond and Related Materials

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Rasha A. AbuMousa

Photo-catalytic Killing of HeLa Cancer Cells Using Facile Synthesized Pure and Ag Loaded WO3 Nanoparticles

Recent update on photocatalytic degradation of pollutants in waste water using TiO2-based heterostructured materials

Facile fabrication of graphitic carbon nitride nanosheets and its integrated polyamide hyper-cross-linked TFC nanofiltration membrane with intrinsic molecular porosity for salts and organic pollutant rejection from water

Investigation of the survival viability of cervical cancer cells (HeLa) under visible light induced photo-catalysis with facile synthesized WO3/ZnO nanocomposite

Environmental remediation applications of MxOy-gC3N4 nanocomposites (M = Mg, Ti, and Zn): Photocatalytic activity for Indigo carmine dye degradation

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