Atomic Spectroscopy

                                        
Dr Mohamed A. Amr will be participating at the International Conference on Atomic & nuclear Physics held by Scientific Federation. Professor Mohamed A. Amr is invited as Speaker for this conference. State-of-the-art experimental developments for trace and ultratrace measurements of heavy metals and long-lived radionuclides using ICP-MS constitute Prof. Amr’s core research interests and expertise, for which he has conducted major projects. In conjunction with these core research interests, he has conducted work on enriched isotopes and their application in biological systems. New research activities have been initiated at the CLU at Qatar University on the absorption and distribution of labeled anti cancerogenic senelo compounds, soil chemical remediation, soil bioremediation, soil phytoremediation, refinery wastewater treatment, and decontamination of radioactive wastewater using nanoparticles (2008 onward). These projects were made possible by considerable external funding, exceeding 2 million US dollars. A novel method for detecting radioisotopes by ICP-MS, which started at Qatar University, was eventually rewarded with a large NPRP research grant worth almost two million US dollars. Undergraduate students were trained on how to conduct research through the innovative UREP scheme of the Qatar Foundation. Seven such projects were successfully applied for and granted to benefit students.Prof. Amr is editor, international Journal of Physical sciences. He has also provided external review articles for many international journals and has appointed as referee of grant applications (Qatar foundation, SSREP Peer review). Also, Prof. Amr included in Who's Who in Science and Engineering, 11th Edition (2011-2012).

Professor Mohamed A. Amr is going to talk on The Collision/Reaction Cell and its Application in Inductively Coupled Plasma Mass Spectrometry for the Determination of Radioisotopes: A literature reviewInductively coupled plasma mass spectrometry (ICP-MS) is reviewed as an alternative nuclear analytical technique for the determination of radioisotopes. The latest development and utilization of collision and reaction cells in ICP-MS is presented. These cells are used to promote reactive and non-reactive collisions with resultant benefits in interference reduction, isobar separation, and thermalization/focusing of ions in ICP-MS. Novel ion–molecule chemistry schemes, using a variety of reaction gas reagents selected on the basis of thermodynamic and kinetic principles and data, are now designed and empirically evaluated with relative ease, and a significant body of ICP-MS applications now exists in the literature. Results for separations of isobaric overlaps via cation reactions with NO, N2O, O2, CO2, C2H2, and CH3F in an inductively coupled plasma collision/reaction cell mass spectrometer (ICP-CRC-MS) are reviewed.

ICANP-2018 brings along leading scientists, engineers, administrators of firms within the scope of Atomic & physics to exchange data on their current analysis progress. ICANP-2018 has initiated with an excellent Organizing Committee from well-known universities across the world, creating it a specially designed cluster conference which will be covering most aspects and fields of Atomic & physics.

URL- http://scientificfederation.com/atomic-nuclear-physics-2018/