Design and Implementation Oxygen Sensor Used Graphene Metal Nanocomposites by LIFT Method

Ala'a Hameed Kadom; Ahmed Sameer Hachim; Tiba Laiq Neamah; Hadeel Qasim Sattar; Waleed Sabah Mahdi

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Ala'a Hameed Kadom University: Al-Isra University / Technical College / Department of Medical Devices Engineering Technology
Ahmed Sameer Hachim Al-Farahidi University Medical DEVICES ENGINEERING
Tiba Laiq Neamah Al-Farahidi University Medical DEVICES ENGINEERING
Hadeel Qasim Sattar Middle Technical University Medical Devices Engineering
Waleed Sabah Mahdi Bilad Alrafidain University Engineer Medical Devices

Vol. 2 No. 2 (2025): American Journal of Biodiversity

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February 4, 2025

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Nanoparticles aroused great interest. In this study, a gas sensor (oxygen sensor) was fabricated using Laser-induced forward transferuses with nanomaterials (grapheneGO - nanosilver Ag- titanium dioxideTiO2) Where the nanomaterials were diagnosed using a (Filed Emission scanning electron microscopy FE-SEM) and the materials were within the nanoscale, the sensor was used to measure the gases in the room, as well as the leakage of gases in the gas systems and others.

Kadom, A. H., Hachim, A. S., Neamah, T. L., Sattar, H. Q., & Mahdi, W. S. (2025). Design and Implementation Oxygen Sensor Used Graphene Metal Nanocomposites by LIFT Method. American Journal of Biodiversity, 2(2), 39–57. Retrieved from https://biojournals.us/index.php/AJB/article/view/540

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Design and Implementation Oxygen Sensor Used Graphene Metal Nanocomposites by LIFT Method

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American Journal of Biodiversity

Design and Implementation Oxygen Sensor Used Graphene Metal Nanocomposites by LIFT Method

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