�ݺ�ߣshows by User: icpaes

�ݺ�ߣshows by User: icpaes / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: icpaes / Thu, 16 May 2024 05:21:24 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: icpaes 2023 HUJI Soil&Water Dept Lecture Notes ICP-OES_MS.pdf /slideshow/2023-huji-soil-water-dept-lecture-notes-icp-oes_ms-pdf/268573154 2023hujisoilwaterdeptlecturenotesicp-oesms-240516052124-243a43cf
Here are the lecture notes from the presentation titled 'ICP-OES/MS Analysis: Advancements, Limitations, and Future Applications in Soil and Water Research,' delivered to a group of researchers affiliated with the Soil & Water Department, Faculty of Agriculture, Hebrew University of Jerusalem (Seagram Center) in 2023. The aim was to explore advanced technologies in elemental analysis and their application to soil and water research. The Lecture Notes Brochure (22 pages) can serve as a concise guide to ICP-OES/MS for researchers and students, assisting them in selecting the appropriate technique for their projects]]>
Here are the lecture notes from the presentation titled 'ICP-OES/MS Analysis: Advancements, Limitations, and Future Applications in Soil and Water Research,' delivered to a group of researchers affiliated with the Soil & Water Department, Faculty of Agriculture, Hebrew University of Jerusalem (Seagram Center) in 2023. The aim was to explore advanced technologies in elemental analysis and their application to soil and water research. The Lecture Notes Brochure (22 pages) can serve as a concise guide to ICP-OES/MS for researchers and students, assisting them in selecting the appropriate technique for their projects]]> Thu, 16 May 2024 05:21:24 GMT /slideshow/2023-huji-soil-water-dept-lecture-notes-icp-oes_ms-pdf/268573154 icpaes@slideshare.net(icpaes) 2023 HUJI Soil&Water Dept Lecture Notes ICP-OES_MS.pdf icpaes Here are the lecture notes from the presentation titled 'ICP-OES/MS Analysis: Advancements, Limitations, and Future Applications in Soil and Water Research,' delivered to a group of researchers affiliated with the Soil & Water Department, Faculty of Agriculture, Hebrew University of Jerusalem (Seagram Center) in 2023. The aim was to explore advanced technologies in elemental analysis and their application to soil and water research. The Lecture Notes Brochure (22 pages) can serve as a concise guide to ICP-OES/MS for researchers and students, assisting them in selecting the appropriate technique for their projects <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/2023hujisoilwaterdeptlecturenotesicp-oesms-240516052124-243a43cf-thumbnail.jpg?width=120&height=120&fit=bounds" /> Here are the lecture notes from the presentation titled 'ICP-OES/MS Analysis: Advancements, Limitations, and Future Applications in Soil and Water Research,' delivered to a group of researchers affiliated with the Soil & Water Department, Faculty of Agriculture, Hebrew University of Jerusalem (Seagram Center) in 2023. The aim was to explore advanced technologies in elemental analysis and their application to soil and water research. The Lecture Notes Brochure (22 pages) can serve as a concise guide to ICP-OES/MS for researchers and students, assisting them in selecting the appropriate technique for their projects

2023 HUJI Soil&Water Dept Lecture Notes ICP-OES_MS.pdf from The Hebrew University of Jerusalem

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0 Determination of Total Iodine using ICP-MS in Israeli Bottled and Tap Water: Method Development and Application /slideshow/determination-of-total-iodine-using-icp-ms-in-israeli-bottled-and-tap-water-method-development-and-application/268194642 rosenisranalytica2023iodineinwater-240513072026-22528910
In Israel, desalinated water is a major source of drinking water. Previous studies have suggested that the levels of iodine in water provided by authorities may not accurately reflect the levels reaching end-users. Materials and Methods: We analyzed 21 tap water samples collected from different localities across Israel, 13 posttreated desalinated water samples from three of the largest Israeli desalination plants, and several natural water samples. An improved method of ICP-MS developed in our laboratory was used to analyze the content of iodine and other macro-elements, and determination of iodine was performed in alkaline media. Results: Our results showed that it is possible to distinguish between sample groups based on iodine concentration, water hardness, and Ca/Mg ratio. The median iodine concentrations for four groups of tap water samples ranged from 0.3 to 12.3 μg/L, which is lower than the concentrations previously reported by other researchers in Israel. Based on typical consumption, the water samples can provide no more than 3.39% of the recommended dietary allowance level for iodine. The analysis of post-treated desalinated water samples indicated that these waters comply with industrial specifications but contain only trace concentrations of iodine and much less magnesium than recommended by different public health authorities for public consumption of drinking water. Conclusion: The total iodine concentrations found were lower than several observations reported in previous years in the literature. There are currently no strict regulations regarding iodine and magnesium levels in drinking and/or softened (desalinated) water, but the intensive desalination plant application is already exhibiting a negative impact on public health. Further investigations are needed, but the present study provides useful insights for developing an effective policy to ensure adequate iodine supply for the population of Israel through drinking water.]]>
In Israel, desalinated water is a major source of drinking water. Previous studies have suggested that the levels of iodine in water provided by authorities may not accurately reflect the levels reaching end-users. Materials and Methods: We analyzed 21 tap water samples collected from different localities across Israel, 13 posttreated desalinated water samples from three of the largest Israeli desalination plants, and several natural water samples. An improved method of ICP-MS developed in our laboratory was used to analyze the content of iodine and other macro-elements, and determination of iodine was performed in alkaline media. Results: Our results showed that it is possible to distinguish between sample groups based on iodine concentration, water hardness, and Ca/Mg ratio. The median iodine concentrations for four groups of tap water samples ranged from 0.3 to 12.3 μg/L, which is lower than the concentrations previously reported by other researchers in Israel. Based on typical consumption, the water samples can provide no more than 3.39% of the recommended dietary allowance level for iodine. The analysis of post-treated desalinated water samples indicated that these waters comply with industrial specifications but contain only trace concentrations of iodine and much less magnesium than recommended by different public health authorities for public consumption of drinking water. Conclusion: The total iodine concentrations found were lower than several observations reported in previous years in the literature. There are currently no strict regulations regarding iodine and magnesium levels in drinking and/or softened (desalinated) water, but the intensive desalination plant application is already exhibiting a negative impact on public health. Further investigations are needed, but the present study provides useful insights for developing an effective policy to ensure adequate iodine supply for the population of Israel through drinking water.]]> Mon, 13 May 2024 07:20:26 GMT /slideshow/determination-of-total-iodine-using-icp-ms-in-israeli-bottled-and-tap-water-method-development-and-application/268194642 icpaes@slideshare.net(icpaes) Determination of Total Iodine using ICP-MS in Israeli Bottled and Tap Water: Method Development and Application icpaes In Israel, desalinated water is a major source of drinking water. Previous studies have suggested that the levels of iodine in water provided by authorities may not accurately reflect the levels reaching end-users. Materials and Methods: We analyzed 21 tap water samples collected from different localities across Israel, 13 posttreated desalinated water samples from three of the largest Israeli desalination plants, and several natural water samples. An improved method of ICP-MS developed in our laboratory was used to analyze the content of iodine and other macro-elements, and determination of iodine was performed in alkaline media. Results: Our results showed that it is possible to distinguish between sample groups based on iodine concentration, water hardness, and Ca/Mg ratio. The median iodine concentrations for four groups of tap water samples ranged from 0.3 to 12.3 μg/L, which is lower than the concentrations previously reported by other researchers in Israel. Based on typical consumption, the water samples can provide no more than 3.39% of the recommended dietary allowance level for iodine. The analysis of post-treated desalinated water samples indicated that these waters comply with industrial specifications but contain only trace concentrations of iodine and much less magnesium than recommended by different public health authorities for public consumption of drinking water. Conclusion: The total iodine concentrations found were lower than several observations reported in previous years in the literature. There are currently no strict regulations regarding iodine and magnesium levels in drinking and/or softened (desalinated) water, but the intensive desalination plant application is already exhibiting a negative impact on public health. Further investigations are needed, but the present study provides useful insights for developing an effective policy to ensure adequate iodine supply for the population of Israel through drinking water. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/rosenisranalytica2023iodineinwater-240513072026-22528910-thumbnail.jpg?width=120&height=120&fit=bounds" /> In Israel, desalinated water is a major source of drinking water. Previous studies have suggested that the levels of iodine in water provided by authorities may not accurately reflect the levels reaching end-users. Materials and Methods: We analyzed 21 tap water samples collected from different localities across Israel, 13 posttreated desalinated water samples from three of the largest Israeli desalination plants, and several natural water samples. An improved method of ICP-MS developed in our laboratory was used to analyze the content of iodine and other macro-elements, and determination of iodine was performed in alkaline media. Results: Our results showed that it is possible to distinguish between sample groups based on iodine concentration, water hardness, and Ca/Mg ratio. The median iodine concentrations for four groups of tap water samples ranged from 0.3 to 12.3 μg/L, which is lower than the concentrations previously reported by other researchers in Israel. Based on typical consumption, the water samples can provide no more than 3.39% of the recommended dietary allowance level for iodine. The analysis of post-treated desalinated water samples indicated that these waters comply with industrial specifications but contain only trace concentrations of iodine and much less magnesium than recommended by different public health authorities for public consumption of drinking water. Conclusion: The total iodine concentrations found were lower than several observations reported in previous years in the literature. There are currently no strict regulations regarding iodine and magnesium levels in drinking and/or softened (desalinated) water, but the intensive desalination plant application is already exhibiting a negative impact on public health. Further investigations are needed, but the present study provides useful insights for developing an effective policy to ensure adequate iodine supply for the population of Israel through drinking water.

Determination of Total Iodine using ICP-MS in Israeli Bottled and Tap Water: Method Development and Application from The Hebrew University of Jerusalem

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0 Rosen 2017 Isranalytica Mg in Tap Water.pdf /slideshow/rosen-2017-isranalytica-mg-in-tap-water-pdf/268127535 rosen2017isranalyticamgintapwater-240512125650-9c8955c4
Water desalination has been extensively developed in Israel, particularly in the last decade. The desalination process provides fresh water that typically lacks minerals, and among these are ions that are essential to human health and/or to agricultural production, such as Mg. We analyzed 28 tap water samples originating from different cities across Israel to document their concentrations of Mg and other elements. The data from this survey (summer 2016) were compared with the results of similar observations conducted in 2008. Regarding toxic elements, tap water across Israel does not pose any health risk for consumers and may be used as drinking water without any household pretreatment. This condition has not changed since 2008. However, the problem of Mg deficiency due to the use of desalinated water was observed in about half of the sampling locations in 2016, whereas no Mg deficiency had been detected in 2008. Moreover, household filtration of tap water prior to consumption as drinking water may worsen the situation due to the Mg status resulting from rejection of this ion; this could be harmful to the consumer, particularly under prolonged exposure.]]>
Water desalination has been extensively developed in Israel, particularly in the last decade. The desalination process provides fresh water that typically lacks minerals, and among these are ions that are essential to human health and/or to agricultural production, such as Mg. We analyzed 28 tap water samples originating from different cities across Israel to document their concentrations of Mg and other elements. The data from this survey (summer 2016) were compared with the results of similar observations conducted in 2008. Regarding toxic elements, tap water across Israel does not pose any health risk for consumers and may be used as drinking water without any household pretreatment. This condition has not changed since 2008. However, the problem of Mg deficiency due to the use of desalinated water was observed in about half of the sampling locations in 2016, whereas no Mg deficiency had been detected in 2008. Moreover, household filtration of tap water prior to consumption as drinking water may worsen the situation due to the Mg status resulting from rejection of this ion; this could be harmful to the consumer, particularly under prolonged exposure.]]> Sun, 12 May 2024 12:56:50 GMT /slideshow/rosen-2017-isranalytica-mg-in-tap-water-pdf/268127535 icpaes@slideshare.net(icpaes) Rosen 2017 Isranalytica Mg in Tap Water.pdf icpaes Water desalination has been extensively developed in Israel, particularly in the last decade. The desalination process provides fresh water that typically lacks minerals, and among these are ions that are essential to human health and/or to agricultural production, such as Mg. We analyzed 28 tap water samples originating from different cities across Israel to document their concentrations of Mg and other elements. The data from this survey (summer 2016) were compared with the results of similar observations conducted in 2008. Regarding toxic elements, tap water across Israel does not pose any health risk for consumers and may be used as drinking water without any household pretreatment. This condition has not changed since 2008. However, the problem of Mg deficiency due to the use of desalinated water was observed in about half of the sampling locations in 2016, whereas no Mg deficiency had been detected in 2008. Moreover, household filtration of tap water prior to consumption as drinking water may worsen the situation due to the Mg status resulting from rejection of this ion; this could be harmful to the consumer, particularly under prolonged exposure. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/rosen2017isranalyticamgintapwater-240512125650-9c8955c4-thumbnail.jpg?width=120&height=120&fit=bounds" /> Water desalination has been extensively developed in Israel, particularly in the last decade. The desalination process provides fresh water that typically lacks minerals, and among these are ions that are essential to human health and/or to agricultural production, such as Mg. We analyzed 28 tap water samples originating from different cities across Israel to document their concentrations of Mg and other elements. The data from this survey (summer 2016) were compared with the results of similar observations conducted in 2008. Regarding toxic elements, tap water across Israel does not pose any health risk for consumers and may be used as drinking water without any household pretreatment. This condition has not changed since 2008. However, the problem of Mg deficiency due to the use of desalinated water was observed in about half of the sampling locations in 2016, whereas no Mg deficiency had been detected in 2008. Moreover, household filtration of tap water prior to consumption as drinking water may worsen the situation due to the Mg status resulting from rejection of this ion; this could be harmful to the consumer, particularly under prolonged exposure.

Rosen 2017 Isranalytica Mg in Tap Water.pdf from The Hebrew University of Jerusalem

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0 Elemental Analysis of Plants using ICP-OES(2023) /slideshow/elemental-analysis-of-plants-using-icp-oes-2023/268117692 rosenelementalanalysisofplants2023-240512112716-7b3f69fc
The fundamentals of elemental analysis pertaining to plant materials will be elucidated. The lecture will delve into the intricacies of the sampling process, sample pre-treatment, and the preparation of plant material samples for subsequent analysis via ICP.]]>
The fundamentals of elemental analysis pertaining to plant materials will be elucidated. The lecture will delve into the intricacies of the sampling process, sample pre-treatment, and the preparation of plant material samples for subsequent analysis via ICP.]]> Sun, 12 May 2024 11:27:15 GMT /slideshow/elemental-analysis-of-plants-using-icp-oes-2023/268117692 icpaes@slideshare.net(icpaes) Elemental Analysis of Plants using ICP-OES(2023) icpaes The fundamentals of elemental analysis pertaining to plant materials will be elucidated. The lecture will delve into the intricacies of the sampling process, sample pre-treatment, and the preparation of plant material samples for subsequent analysis via ICP. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/rosenelementalanalysisofplants2023-240512112716-7b3f69fc-thumbnail.jpg?width=120&height=120&fit=bounds" /> The fundamentals of elemental analysis pertaining to plant materials will be elucidated. The lecture will delve into the intricacies of the sampling process, sample pre-treatment, and the preparation of plant material samples for subsequent analysis via ICP.

Elemental Analysis of Plants using ICP-OES(2023) from The Hebrew University of Jerusalem

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0 Metals around us (Hebrew) /slideshow/metals-around-us-hebrew/55479007 metalsaroundus-151124195837-lva1-app6892
This lecture was presented in Herzog school (Rehovot City, Israel) for the 4th class students (in Hebrew). November 2015]]>
This lecture was presented in Herzog school (Rehovot City, Israel) for the 4th class students (in Hebrew). November 2015]]> Tue, 24 Nov 2015 19:58:37 GMT /slideshow/metals-around-us-hebrew/55479007 icpaes@slideshare.net(icpaes) Metals around us (Hebrew) icpaes This lecture was presented in Herzog school (Rehovot City, Israel) for the 4th class students (in Hebrew). November 2015 <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/metalsaroundus-151124195837-lva1-app6892-thumbnail.jpg?width=120&height=120&fit=bounds" /> This lecture was presented in Herzog school (Rehovot City, Israel) for the 4th class students (in Hebrew). November 2015

Metals around us (Hebrew) from The Hebrew University of Jerusalem

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0 Elemental Analysis of Plant Material /slideshow/elemental-analysis-of-plant-material-55478482/55478482 rosenplantmineralanalysis2015-151124194419-lva1-app6891
This lecture is based on previously read lecture "Plant Mineral Analysis", 2012. Some new points were added, especially in LOD/LOQ section. The internal standard calculation was explained. The lecture was presented in the frame of International Course "Crop Production under Saline Stress As A Result Of Climatic Changes", The Faculty of Agriculture, The Hebrew University of Jerusalem.]]>
This lecture is based on previously read lecture "Plant Mineral Analysis", 2012. Some new points were added, especially in LOD/LOQ section. The internal standard calculation was explained. The lecture was presented in the frame of International Course "Crop Production under Saline Stress As A Result Of Climatic Changes", The Faculty of Agriculture, The Hebrew University of Jerusalem.]]> Tue, 24 Nov 2015 19:44:19 GMT /slideshow/elemental-analysis-of-plant-material-55478482/55478482 icpaes@slideshare.net(icpaes) Elemental Analysis of Plant Material icpaes This lecture is based on previously read lecture "Plant Mineral Analysis", 2012. Some new points were added, especially in LOD/LOQ section. The internal standard calculation was explained. The lecture was presented in the frame of International Course "Crop Production under Saline Stress As A Result Of Climatic Changes", The Faculty of Agriculture, The Hebrew University of Jerusalem. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/rosenplantmineralanalysis2015-151124194419-lva1-app6891-thumbnail.jpg?width=120&height=120&fit=bounds" /> This lecture is based on previously read lecture "Plant Mineral Analysis", 2012. Some new points were added, especially in LOD/LOQ section. The internal standard calculation was explained. The lecture was presented in the frame of International Course "Crop Production under Saline Stress As A Result Of Climatic Changes", The Faculty of Agriculture, The Hebrew University of Jerusalem.

Elemental Analysis of Plant Material from The Hebrew University of Jerusalem

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0 Elemental Analysis of Plant Material /slideshow/elemental-analysis-of-plant-material/15575317 rosenplantmineralanalysis-121210124850-phpapp01
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Elemental Analysis of Plant Material from The Hebrew University of Jerusalem

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0 Elemental Analysis of Plants (ICP and EA) /slideshow/elemental-analysis-of-plants-icp-and-ea/15575288 icpandea2012-121210124710-phpapp01
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Elemental Analysis of Plants (ICP and EA) from The Hebrew University of Jerusalem

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0 Atomic Spectroscopy Basics (2012) /slideshow/atomic-spectroscopy-basics-2012/15575258 atomicspectroscopy-2012-course-71106-121210124459-phpapp02
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Atomic Spectroscopy Basics (2012) from The Hebrew University of Jerusalem

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0 Elemen analysis of foodstuff /slideshow/elemen-analysis-of-foodstuff/15575114 121203-element-analysis-of-foodstuff-121210123234-phpapp01
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Elemen analysis of foodstuff from The Hebrew University of Jerusalem

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0 Atomic Spectroscopy: Basic Principles and Instruments /slideshow/atomic-spectroscopy-basic-principles-and-instruments/7416973 atomicspectroscopy-makor-110328101059-phpapp02
A short lecture about Atomic Spectroscopy: Flame Photometry, Atomic Absorption, and Atomic Emission with Coupled Plasma (FP, AA and ICP-AES). Presented at 28.03.2011, Faculty of Agriculture, Hebrew University of Jerusalem, by Vasiliy Rosen, M.Sc.]]>
A short lecture about Atomic Spectroscopy: Flame Photometry, Atomic Absorption, and Atomic Emission with Coupled Plasma (FP, AA and ICP-AES). Presented at 28.03.2011, Faculty of Agriculture, Hebrew University of Jerusalem, by Vasiliy Rosen, M.Sc.]]> Mon, 28 Mar 2011 10:10:55 GMT /slideshow/atomic-spectroscopy-basic-principles-and-instruments/7416973 icpaes@slideshare.net(icpaes) Atomic Spectroscopy: Basic Principles and Instruments icpaes A short lecture about Atomic Spectroscopy: Flame Photometry, Atomic Absorption, and Atomic Emission with Coupled Plasma (FP, AA and ICP-AES). Presented at 28.03.2011, Faculty of Agriculture, Hebrew University of Jerusalem, by Vasiliy Rosen, M.Sc. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/atomicspectroscopy-makor-110328101059-phpapp02-thumbnail.jpg?width=120&height=120&fit=bounds" /> A short lecture about Atomic Spectroscopy: Flame Photometry, Atomic Absorption, and Atomic Emission with Coupled Plasma (FP, AA and ICP-AES). Presented at 28.03.2011, Faculty of Agriculture, Hebrew University of Jerusalem, by Vasiliy Rosen, M.Sc.

Atomic Spectroscopy: Basic Principles and Instruments from The Hebrew University of Jerusalem

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0 https://cdn.slidesharecdn.com/profile-photo-icpaes-48x48.jpg?cb=1715836824 Senior-level ICP-OES/MS expert with more than 20 years experience. Expert in sample preparation and elemental analysis of wide range of samples. Ph.D. in soil science, scientific interests - distribution pattern of heavy metals in soils, metal accumulation in plants. Lecturer in the theory of atomic spectroscopy, instrumentation and sample preparation (fluent in Hebrew and English). icpaes.wix.com/rosen https://cdn.slidesharecdn.com/ss_thumbnails/2023hujisoilwaterdeptlecturenotesicp-oesms-240516052124-243a43cf-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/2023-huji-soil-water-dept-lecture-notes-icp-oes_ms-pdf/268573154 2023 HUJI Soil&Water D... https://cdn.slidesharecdn.com/ss_thumbnails/rosenisranalytica2023iodineinwater-240513072026-22528910-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/determination-of-total-iodine-using-icp-ms-in-israeli-bottled-and-tap-water-method-development-and-application/268194642 Determination of Total... https://cdn.slidesharecdn.com/ss_thumbnails/rosen2017isranalyticamgintapwater-240512125650-9c8955c4-thumbnail.jpg?width=320&height=320&fit=bounds slideshow/rosen-2017-isranalytica-mg-in-tap-water-pdf/268127535 Rosen 2017 Isranalyti...