Hamed M. Mofarah scite author profile

Hamed M. Mofarah

2Publications

31Citation Statements Received

122Citation Statements Given

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120

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University of Ottawa

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Silver Nanoparticle-Decorated Personal Protective Equipment for Inhibiting Human Coronavirus Infectivity

Abulikemu

Tabrizi

Ghobadloo

et al. 2021

ACS Appl. Nano Mater.

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The Coronavirus disease 2019 (COVID-19) global outbreak and its continued growth and mutation into various forms emphasize the need for effective disinfectants to assist in the reduction of the virus’s spread from individual to individuals and community to communities through various modes, including coughing, sneezing, touching of contaminated surfaces, and being in proximity of an unprotected infected person, to mention a few. The rapid development of reliable disinfecting materials or solutions and their incorporation in personal protective equipment is a critical need at the moment that will assist significantly in curbing the spread of the virus SARS-CoV-2, the cause of COVID-19 illness. Here, we present an in situ assembly of antiviral metal nanoparticles on a rigid surface and on commercial face masks made up of nonwoven and woven textiles. The results indicate a very high efficacy of 99.99% against a surrogate virus to SARS-CoV-2. Such a versatile and cost-effective approach using the blade-coating technique can be easily extended to the roll-to-roll manufacturing setting to expedite the efforts and mitigate the rapid spread of the virus.

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Recyclable luminescent carbon dots nanopaper for flexible electronics

Abulikemu

Tabrizi

Mofarah

et al. 2023

Flex. Print. Electron.

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The use of sustainable materials in high-tech devices is one way to decrease the carbon footprint and tackle global climate change. We first synthesized blue-emissive carbon dots from biocompatible onion inner epidermal cells using Solvothermal method. Then, cellulose nanofiber was prepared by TEMPO oxidization, followed by homogenisation from soft wood source. Finally, the blue emissive carbon dots-cellulose nanofibers-based nanopaper was fabricated by simple roller-coating approach, and its optical and morphological properties were investigated by Transmittance, PL, FTIR and SEM techniques. The results indicate that nanopapers have a high light emission, and that their transparency may be easily adjusted by varying the proportion of carbon dots content. These nanopapers can be incorporated into flexible and stretchable electronics and optical sensor platforms.

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Hamed M. Mofarah

Silver Nanoparticle-Decorated Personal Protective Equipment for Inhibiting Human Coronavirus Infectivity

Recyclable luminescent carbon dots nanopaper for flexible electronics

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