Mahsa Khoshnam scite author profile

In this study, hematite graphene oxide (αFe2O3-GO) powder nanocomposites and thin-film hematite graphene oxide (αFe2O3-GO) were synthesized for application in the removal of Rhodamine B (RhB) from textile wastewater. αFe2O3-GO nanomaterials were placed onto the FTO substrate to form a thin layer of nanocomposites. Different analysis including XRD, FTIR, Raman spectra, XPS, and FESEM were done to analyze the morphology, structure, and properties of the synthesized composites as well as the chemical interactions of αFe2O3 with GO. The photocatalytic performance of two synthesized composites was compared with different concentrations of αFe2O3-GO. The results showed that powder nanocomposites are more effective than thin-film composites for the removal of RhB dye. αFe2O3-GO-5% powder nanocomposites removed over 64% of dye while thin-film nanocomposites had less removal efficiencies with just under 47% removal rate. The reusability test was done for both materials in which αFe2O3-GO-5% powder nanocomposites removed a higher rate of dye (up to 63%) in more cycles (6 cycles).

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Synthesis and characterization of magnetic-photocatalytic Fe3O4/SiO2/a-Fe2O3 nano core-shell

Khoshnam

Salimijazi

2021

Surfaces and Interfaces

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Midwifery Manpower in Primary Healthcare Centres of Tehran, Iran: A Cross-sectional Survey

Khoshnam

-Chime

Khosravi

et al. 2022

AJNM

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Background: It is necessary to use accurate methods of calculating manpower to avoid wasting resources. Given that reproductive health services are an important part of primary health services, it would be useful to apply manpower calculation methods to service providers in related occupational groups. This study calculated the required midwifery manpower in health care centers using the Workload Indicator of Staffing Need method. Methods: A cross-sectional study was conducted in 1400 in 276 health centers in Tehran according to the WISN model, in which the list of activities related to reproductive health in the centers under the auspices of the University of Tehran was determined. The available working time, main workload components, and the activity standards (service standards and allowance standards) were determined through a mixed method (direct observation, comments of service providers, and meetings with experts). The volume of services provided over the period of one year prior to the onset of the COVID-19 pandemic was estimated using national statistics. Finally, the required manpower was calculated and compared with the actual workforce. Results: The results showed that currently Tehran health centers need 34 more staff to provide reproductive health services. The working pressure was calculated 0.9, and the current allowance factor is 1.31. Based on observations, midwifery capacity is currently not fully and exclusively used. Conclusion: To improve the quality of reproductive health services, it is recommended to eliminate the current shortage of midwives, focus more on special midwifery tasks, and reduce the amount of indirect activities of midwives.

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α-Fe2O3/Graphene Oxide Powder and Thin Film Nanocomposites: Peculiar Photocatalysts for Dye Removal from Wastewater

Khoshnam

Farahbakhsh

Zargar

et al. 2021

Preprint

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In this study, hematite graphene oxide (αFe2O3-GO) powder nanocomposites and thin-film hematite graphene oxide (αFe2O3-GO) were synthesized for application in the removal of Rhodamine B (RhB) from textile wastewater. αFe2O3-GO nanomaterials were placed onto the FTO substrate to form a thin layer of nanocomposites. Different analysis including XRD, FTIR, Raman spectra, XPS, and FESEM were done to analyze the morphology, structure, and properties of the synthesized composites as well as the chemical interactions of αFe2O3 with GO. The photocatalytic performance of two synthesized composites was compared with different concentrations of αFe2O3-GO. The results showed that powder nanocomposites are more effective than thin-film composites for the removal of RhB dye. αFe2O3-GO-5% powder nanocomposites removed over 64 % of dye while thin-film nanocomposites had less removal efficiencies with just under 47 % removal rate. The reusability test was done for both materials in which αFe2O3-GO-5 % powder nanocomposites removed a higher rate of dye (up to 63 %) in more cycles (6 cycles).

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Mahsa Khoshnam

Recent advancements in the application of new monomers and membrane modification techniques for the fabrication of thin film composite membranes: A review

α-Fe2O3/graphene oxide powder and thin film nanocomposites as peculiar photocatalysts for dye removal from wastewater

Synthesis and characterization of magnetic-photocatalytic Fe3O4/SiO2/a-Fe2O3 nano core-shell

Midwifery Manpower in Primary Healthcare Centres of Tehran, Iran: A Cross-sectional Survey

α-Fe2O3/Graphene Oxide Powder and Thin Film Nanocomposites: Peculiar Photocatalysts for Dye Removal from Wastewater

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