Syntheses of Silver Nanoparticles Using Two Energies, 300 and 500 mJ of Nd: YAG Laser
The aim of this paper a prepare silver nanoparticles using the pulsed laser ablation method in liquid (PLAL). This method is considered unconventional, fast, clean, long-lasting, and non-toxic, using a Q-switched pulsed laser (1064 Nd: YAG) nanometers. With two ablation energies (300, 500...
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College of Education for Pure Sciences
2025-01-01
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| Series: | مجلة التربية والعلم |
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| Online Access: | https://edusj.uomosul.edu.iq/article_184904_8f7bf757fd95ffe8f2c5fbe73b360283.pdf |
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| author | Noor Al-Jubbori Mushtaq Al-Jubbori Ayyad Alhade Ezwam |
| author_facet | Noor Al-Jubbori Mushtaq Al-Jubbori Ayyad Alhade Ezwam |
| author_sort | Noor Al-Jubbori |
| collection | DOAJ |
| description | The aim of this paper a prepare silver nanoparticles using the pulsed laser ablation method in liquid (PLAL). This method is considered unconventional, fast, clean, long-lasting, and non-toxic, using a Q-switched pulsed laser (1064 Nd: YAG) nanometers. With two ablation energies (300, 500 mJ) and a number of pulses (50, 100, 150, 200), the laser ablation process was carried out at room temperature, by immersing the metal in deionized water (distilled water) with (5 mL). After preparing the solutions, we noticed the change in the color of deionized distilled water increases with the number of pulses, this is a good indicator of the production of silver nanoparticles. The color of the solution ranges from pale yellow to dark yellow. The physical properties were analyzed by transmission electron microscope (TEM) at a pulse of 200 and were shown by this examination showed that there were nanoparticles in the prepared solutions of silver, and the results of the TEM images showed that at two energies (300, 500 mJ) spherical silver nanoparticles were obtained, from these images the diameters of nanoparticles were measured using the (ImageJ) program, it was shown that the diameter distribution range between (4.41 - 42.87 nm), which was approximately centered at (18.13) nm for silver, and at 500mJ laser power the diameter distribution range between (3.12- 26.60 nm), which was approximately centered at (16.67) nm for silver. |
| format | Article |
| id | doaj-art-cd7dae53781b4066b5efefde37f84c35 |
| institution | DOAJ |
| issn | 1812-125X 2664-2530 |
| language | Arabic |
| publishDate | 2025-01-01 |
| publisher | College of Education for Pure Sciences |
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| series | مجلة التربية والعلم |
| spelling | doaj-art-cd7dae53781b4066b5efefde37f84c352025-08-20T02:53:09ZaraCollege of Education for Pure Sciencesمجلة التربية والعلم1812-125X2664-25302025-01-01341182910.33899/edusj.2024.149313.1455184904Syntheses of Silver Nanoparticles Using Two Energies, 300 and 500 mJ of Nd: YAG LaserNoor Al-Jubbori0Mushtaq Al-Jubbori1Ayyad Alhade Ezwam2Department of Chemical, Biological and Radiological Safety and Security, Presidency of the University of Mosul, IraqDepartment of Physics, College of Education for Pure Science, Mosul University, Mosul-IraqDepartment of Physics, College of Science, University of Tripoli, Libya The aim of this paper a prepare silver nanoparticles using the pulsed laser ablation method in liquid (PLAL). This method is considered unconventional, fast, clean, long-lasting, and non-toxic, using a Q-switched pulsed laser (1064 Nd: YAG) nanometers. With two ablation energies (300, 500 mJ) and a number of pulses (50, 100, 150, 200), the laser ablation process was carried out at room temperature, by immersing the metal in deionized water (distilled water) with (5 mL). After preparing the solutions, we noticed the change in the color of deionized distilled water increases with the number of pulses, this is a good indicator of the production of silver nanoparticles. The color of the solution ranges from pale yellow to dark yellow. The physical properties were analyzed by transmission electron microscope (TEM) at a pulse of 200 and were shown by this examination showed that there were nanoparticles in the prepared solutions of silver, and the results of the TEM images showed that at two energies (300, 500 mJ) spherical silver nanoparticles were obtained, from these images the diameters of nanoparticles were measured using the (ImageJ) program, it was shown that the diameter distribution range between (4.41 - 42.87 nm), which was approximately centered at (18.13) nm for silver, and at 500mJ laser power the diameter distribution range between (3.12- 26.60 nm), which was approximately centered at (16.67) nm for silver.https://edusj.uomosul.edu.iq/article_184904_8f7bf757fd95ffe8f2c5fbe73b360283.pdfsilver nanoparticlespulsed lasertransmission electron microscopesilver nanoparticle diameters |
| spellingShingle | Noor Al-Jubbori Mushtaq Al-Jubbori Ayyad Alhade Ezwam Syntheses of Silver Nanoparticles Using Two Energies, 300 and 500 mJ of Nd: YAG Laser مجلة التربية والعلم silver nanoparticles pulsed laser transmission electron microscope silver nanoparticle diameters |
| title | Syntheses of Silver Nanoparticles Using Two Energies, 300 and 500 mJ of Nd: YAG Laser |
| title_full | Syntheses of Silver Nanoparticles Using Two Energies, 300 and 500 mJ of Nd: YAG Laser |
| title_fullStr | Syntheses of Silver Nanoparticles Using Two Energies, 300 and 500 mJ of Nd: YAG Laser |
| title_full_unstemmed | Syntheses of Silver Nanoparticles Using Two Energies, 300 and 500 mJ of Nd: YAG Laser |
| title_short | Syntheses of Silver Nanoparticles Using Two Energies, 300 and 500 mJ of Nd: YAG Laser |
| title_sort | syntheses of silver nanoparticles using two energies 300 and 500 mj of nd yag laser |
| topic | silver nanoparticles pulsed laser transmission electron microscope silver nanoparticle diameters |
| url | https://edusj.uomosul.edu.iq/article_184904_8f7bf757fd95ffe8f2c5fbe73b360283.pdf |
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