Your search keyword '"UPF"' showing total 5 results

1. Fabrication and characterization of TiO2 and MWCNT coated electrospinning nanofibers for UV protection properties

Author

Aysa Ghasemi Koozekonan, Mohammad Reza Monazzam Esmaeilpour, Saba Kalantary, Ali Karimi, Kamal Azam, and Farideh Golbabaei

Subjects

Electrospinning, Nanofiber, Polyacrylonitrile, UV protection, UPF, MWCNT, Science

Abstract

This paper aimed to fabricate UV protective nanofibers by the use of specific nanoparticles. The DMF/TiO2 (Titanium dioxide), DMF/MWCNT (Multi-Walled Carbon Nano Tubes), and DMF/MWCNT+TiO2 (MWCNT: TiO2 mass ratio= 1:1) solutions were transferred into a syringe with a stainless steel needle with gauge 21. The electrospinning process was performed for 3 h at the optimized conditions. The surface morphology of nanofibers was characterized by field emission scanning electron microscopy (FESEM). Fourier transform infrared spectroscopy (FTIR) was utilized to characterize functional groups of oxidized MWCNTs and investigate the successful load of nanoparticles at the fiber surface. The UV protection property of nanofibers was investigated by measuring UV rays' transmittance through the composite web. The data of Spectroscopy was used to compute the UV protection factor (UPF).(1) The effect of CNT,TiO2, and CNT+TiO2 nanoparticles on ultraviolet protection property was analyzed separately and simultaneously.(2) The different concentrations of nanoparticles, including 1,5,10, & 15 wt%, were used to fabricate UV protective nanocomposites.(3) The electrospinning condition was optimized as a 15 cm distance between the needle tip and collector, 20 KV voltage, 250 RPM drum rotation, and 1.2 ml/h feeding rate to access the best nanofibers.

Published

2021

2. A site-specific standard for comparing dynamic solar ultraviolet protection characteristics of established tree canopies

Author

Simone L. Harrison, Abdurazaq Amar, Harry Butler, Alfio V. Parisi, Louise Baldwin, Nathan Downs, and Jennifer K. Vanos

Subjects

Canopy, Public park, Built environment, Computer science, UPF, Clinical Biochemistry, SPI, Ultraviolet protection, Irradiance, 010501 environmental sciences, Sun protection, 01 natural sciences, Tree shade, GeneralLiterature_MISCELLANEOUS, 03 medical and health sciences, Skin cancer, lcsh:Science, ComputingMethodologies_COMPUTERGRAPHICS, 030304 developmental biology, 0105 earth and related environmental sciences, Remote sensing, 0303 health sciences, Tree canopy, Radiometer, Video capture, Measuring the ultraviolet protection of tree shade from canopy video analysis, Standard, UV, Medical Laboratory Technology, Tree (data structure), Environmental Science, lcsh:Q

Abstract

Graphical abstract, A standardised procedure for making fair and comparable assessments of the ultraviolet protection of an established tree canopy that takes into account canopy movement and the changing position of the sun is presented for use by government, planning, and environmental health authorities. The technique utilises video image capture and replaces the need for measurement by ultraviolet radiometers for surveying shade quality characteristics of trees growing in public parks, playgrounds and urban settings. The technique improves upon tree shade assessments that may be based upon single measurements of the ultraviolet irradiance observed from a fixed point of view. The presented technique demonstrates how intelligent shade audits can be conducted without the need for specialist equipment, enabling the calculation of the Shade Protection Index (SPI) and Ultraviolet Protection Factor (UPF) for any discreet time interval and over a full calendar year. • Tree shade UPF measurements are presented using video capture analysis of moving canopies • A standard method for making accurate assessments of tree shade has been developed • Tree shade comparisons are made without the need for specialist equipment

Published

2019

3. Fabrication and characterization of TiO2 and MWCNT coated electrospinning nanofibers for UV protection properties

Author

Ali Karimi, Saba Kalantary, Kamal Azam, Farideh Golbabaei, Mohammad Reza Monazzam Esmaeilpour, and Aysa Ghasemi Koozekonan

Subjects

Materials science, Science, Clinical Biochemistry, UPF, Nanoparticle, 010501 environmental sciences, Polyacrylonitrile, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, TiO2, UV protection, Fiber, Fourier transform infrared spectroscopy, 030304 developmental biology, 0105 earth and related environmental sciences, 0303 health sciences, Nanocomposite, Electrospinning, MWCNT, Nanofiber, Method Article, Medical Laboratory Technology, chemistry, Chemical engineering, Titanium dioxide

Abstract

This paper aimed to fabricate UV protective nanofibers by the use of specific nanoparticles. The DMF/TiO2 (Titanium dioxide), DMF/MWCNT (Multi-Walled Carbon Nano Tubes), and DMF/MWCNT+TiO2 (MWCNT: TiO2 mass ratio= 1:1) solutions were transferred into a syringe with a stainless steel needle with gauge 21. The electrospinning process was performed for 3 h at the optimized conditions. The surface morphology of nanofibers was characterized by field emission scanning electron microscopy (FESEM). Fourier transform infrared spectroscopy (FTIR) was utilized to characterize functional groups of oxidized MWCNTs and investigate the successful load of nanoparticles at the fiber surface. The UV protection property of nanofibers was investigated by measuring UV rays' transmittance through the composite web. The data of Spectroscopy was used to compute the UV protection factor (UPF). (1) The effect of CNT,TiO2, and CNT+TiO2 nanoparticles on ultraviolet protection property was analyzed separately and simultaneously. (2) The different concentrations of nanoparticles, including 1,5,10, & 15 wt%, were used to fabricate UV protective nanocomposites. (3) The electrospinning condition was optimized as a 15 cm distance between the needle tip and collector, 20 KV voltage, 250 RPM drum rotation, and 1.2 ml/h feeding rate to access the best nanofibers., Graphical abstract Image, graphical abstract

Published

2021

4. Fabrication and characterization of TiO 2 and MWCNT coated electrospinning nanofibers for UV protection properties.

Author

Koozekonan AG, Esmaeilpour MRM, Kalantary S, Karimi A, Azam K, and Golbabaei F

Abstract

This paper aimed to fabricate UV protective nanofibers by the use of specific nanoparticles. The DMF/TiO 2 (Titanium dioxide), DMF/MWCNT (Multi-Walled Carbon Nano Tubes), and DMF/MWCNT+TiO 2 (MWCNT: TiO 2 mass ratio= 1:1) solutions were transferred into a syringe with a stainless steel needle with gauge 21. The electrospinning process was performed for 3 h at the optimized conditions. The surface morphology of nanofibers was characterized by field emission scanning electron microscopy (FESEM). Fourier transform infrared spectroscopy (FTIR) was utilized to characterize functional groups of oxidized MWCNTs and investigate the successful load of nanoparticles at the fiber surface. The UV protection property of nanofibers was investigated by measuring UV rays' transmittance through the composite web. The data of Spectroscopy was used to compute the UV protection factor (UPF). (1) The effect of CNT,TiO 2 , and CNT+TiO 2 nanoparticles on ultraviolet protection property was analyzed separately and simultaneously. (2) The different concentrations of nanoparticles, including 1,5,10, & 15 wt%, were used to fabricate UV protective nanocomposites. (3) The electrospinning condition was optimized as a 15 cm distance between the needle tip and collector, 20 KV voltage, 250 RPM drum rotation, and 1.2 ml/h feeding rate to access the best nanofibers., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2021 The Authors. Published by Elsevier B.V.)

Published

2021

5. A site-specific standard for comparing dynamic solar ultraviolet protection characteristics of established tree canopies.

Author

Downs NJ, Butler HJ, Baldwin L, Parisi AV, Amar A, Vanos J, and Harrison S

Abstract

A standardised procedure for making fair and comparable assessments of the ultraviolet protection of an established tree canopy that takes into account canopy movement and the changing position of the sun is presented for use by government, planning, and environmental health authorities. The technique utilises video image capture and replaces the need for measurement by ultraviolet radiometers for surveying shade quality characteristics of trees growing in public parks, playgrounds and urban settings. The technique improves upon tree shade assessments that may be based upon single measurements of the ultraviolet irradiance observed from a fixed point of view. The presented technique demonstrates how intelligent shade audits can be conducted without the need for specialist equipment, enabling the calculation of the Shade Protection Index (SPI) and Ultraviolet Protection Factor (UPF) for any discreet time interval and over a full calendar year. •Tree shade UPF measurements are presented using video capture analysis of moving canopies•A standard method for making accurate assessments of tree shade has been developed•Tree shade comparisons are made without the need for specialist equipment.

Published

2019