His scientific interests lie mostly in Membrane, Analytical chemistry, Nanotechnology, Nuclear magnetic resonance and Desalination. His Membrane study integrates concerns from other disciplines, such as Mass transfer coefficient, Chemical engineering and Polymer chemistry. Yoram Cohen has researched Analytical chemistry in several fields, including Nanoparticle, Chloroform and Thermodynamics.
His studies deal with areas such as White matter, Exponential function, Early detection and Pathology as well as Nuclear magnetic resonance. His White matter research includes themes of Diffusion MRI and Spinal cord. His study in Desalination is interdisciplinary in nature, drawing from both Reverse osmosis, Brackish water, Environmental engineering, Gypsum and Process engineering.
Yoram Cohen mainly investigates Membrane, Reverse osmosis, Chemical engineering, Desalination and Polymer chemistry. His Membrane study frequently links to adjacent areas such as Chromatography. His Reverse osmosis study incorporates themes from Gypsum, Membrane technology, Process engineering and Water treatment.
His Chemical engineering research incorporates elements of Ultrafiltration and Aqueous solution. His research investigates the connection between Desalination and topics such as Environmental engineering that intersect with issues in Brackish water. Yoram Cohen combines subjects such as Organic chemistry, Polymerization and Polymer with his study of Polymer chemistry.
His primary areas of investigation include Membrane, Reverse osmosis, Chemical engineering, Nanotechnology and Desalination. As a part of the same scientific family, Yoram Cohen mostly works in the field of Membrane, focusing on Chromatography and, on occasion, Membrane integrity. The concepts of his Reverse osmosis study are interwoven with issues in Salinity, Environmental engineering, Drainage, Permeation and Pulp and paper industry.
His Chemical engineering research integrates issues from Ultrafiltration, Fouling, Polymerization and Polyamide. The Nanotechnology study combines topics in areas such as Biophysics, Applicability domain and Toxicity. His Desalination study combines topics in areas such as Control theory, Pilot plant, Ultrafiltration, Process engineering and Filtration.
His main research concerns Nanotechnology, Reverse osmosis, Environmental engineering, Membrane and Engineered nanomaterials. The study incorporates disciplines such as Biophysics and Toxicity in addition to Nanotechnology. His study in the field of Reverse osmosis desalination is also linked to topics like Flux.
His work deals with themes such as Desalination, Multimedia and Brackish water, which intersect with Environmental engineering. His biological study spans a wide range of topics, including Chromatography and Flow. His work on Agglomerate as part of general Chemical engineering research is frequently linked to Scaling, bridging the gap between disciplines.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Early detection of regional cerebral ischemia in cats: comparison of diffusion- and T2-weighted MRI and spectroscopy.
M. E. Moseley;Y. Cohen;J. Mintorovitch;L. Chileuitt.
Magnetic Resonance in Medicine (1990)
Diffusion-weighted MR imaging of anisotropic water diffusion in cat central nervous system.
M E Moseley;Y Cohen;J Kucharczyk;J Mintorovitch.
Diffusion-weighted MR imaging of acute stroke: correlation with T2-weighted and magnetic susceptibility-enhanced MR imaging in cats.
M E Moseley;J Kucharczyk;J Mintorovitch;Y Cohen.
American Journal of Neuroradiology (1990)
Diffusion NMR Spectroscopy in Supramolecular and Combinatorial Chemistry: An Old Parameter—New Insights
Yoram Cohen;Liat Avram;Limor Frish.
Angewandte Chemie (2005)
A Critical Assessment of Chromium in the Environment
David Eugene Kimbrough;Yoram Cohen;Arthur M. Winer;Lynn Creelman.
Critical Reviews in Environmental Science and Technology (1999)
Use of Metal Oxide Nanoparticle Band Gap To Develop a Predictive Paradigm for Oxidative Stress and Acute Pulmonary Inflammation
Haiyuan Zhang;Zhaoxia Ji;Tian Xia;Huan Meng.
ACS Nano (2012)
Comparison of diffusion- and T2-weighted MRI for the early detection of cerebral ischemia and reperfusion in rats
J. Mintorovitch;M. E. Moseley;L. Chileuitt;H. Shimizu.
Magnetic Resonance in Medicine (1991)
Protein Corona Fingerprinting Predicts the Cellular Interaction of Gold and Silver Nanoparticles
Carl D. Walkey;Jonathan B. Olsen;Fayi Song;Rong Liu.
ACS Nano (2014)
Environmental distribution and transformation of mercury compounds
Eric D. Stein;Yoram Cohen;Arthur M. Winer.
Critical Reviews in Environmental Science and Technology (1996)
Toxicity mechanisms in Escherichia coli vary for silver nanoparticles and differ from ionic silver.
Angela Ivask;Amro ElBadawy;Chitrada Kaweeteerawat;David Boren.
ACS Nano (2014)
Profile was last updated on December 6th, 2021.
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