University of Surrey
2016 - IMBES Early Career Award In recognition of significant, original research contributions to the field of Mind, Brain, and Education
2014 - Spearman Medal, British Psychological Society
2012 - Paul Bertelson Award
2010 - The Janett Rosenberg Trubatch Career Development Award For demonstrating originality and creativity in research
2009 - The Sieratzki-Korczyn Prize for Advances in the Neurosciences
His scientific interests lie mostly in Neuroscience, Cognition, Parietal lobe, Cognitive psychology and Cognitive science. Neuroscience is frequently linked to Dyscalculia in his study. His research on Cognition frequently links to adjacent areas such as Transcranial magnetic stimulation.
His Parietal lobe study incorporates themes from Posterior parietal cortex and Developmental Dyscalculia. His Cognitive psychology research incorporates elements of Neurocognitive, Perception, Cognitive neuroscience and Human brain. The concepts of his Cognitive science study are interwoven with issues in Representation, Magnitude, Richter magnitude scale and Amodal perception.
His main research concerns Cognition, Neuroscience, Cognitive psychology, Brain stimulation and Cognitive science. His Cognition study combines topics in areas such as Synesthesia, Perception and Transcranial direct-current stimulation. His studies in Stimulation, Parietal lobe, Functional magnetic resonance imaging, Transcranial magnetic stimulation and Posterior parietal cortex are all subfields of Neuroscience research.
His Parietal lobe study integrates concerns from other disciplines, such as Magnitude processing and Developmental Dyscalculia. In his study, Sensory cue is strongly linked to Numerosity adaptation effect, which falls under the umbrella field of Cognitive psychology. His research in Brain stimulation tackles topics such as Cognitive training which are related to areas like Executive functions, Audiology and Neuroplasticity.
His primary scientific interests are in Cognition, Neuroscience, Brain stimulation, Working memory and Neurocognitive. His studies deal with areas such as Negative association, Monocular and Cognitive psychology as well as Cognition. His Neuroscience study frequently draws connections between adjacent fields such as Alpha.
His Brain stimulation research is multidisciplinary, relying on both Lateralization of brain function, Audiology, Neurostimulation, Neuroenhancement and Transcranial direct-current stimulation. In his research, Clinical psychology, Developmental psychology and Cognitive neuroscience is intimately related to Mathematical anxiety, which falls under the overarching field of Neurocognitive. His biological study spans a wide range of topics, including Mathematical achievement, Numerosity adaptation effect, Representation, Cognitive science and Numerical cognition.
Roi Cohen Kadosh focuses on Neuroscience, Cognition, Random noise, Brain stimulation and Electrical brain stimulation. His study in Neuroscience focuses on Electroencephalography in particular. His research in Cognition intersects with topics in Alpha and Perception.
His Perception study combines topics from a wide range of disciplines, such as Human brain, Visual cortex and Communication. His Brain stimulation research is multidisciplinary, incorporating elements of Neuropsychology, Effects of sleep deprivation on cognitive performance, Mental calculation, Neuroenhancement and Neuroplasticity. His work in Electrical brain stimulation covers topics such as Audiology which are related to areas like Working memory.
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Are numbers special? An overview of chronometric, neuroimaging, developmental and comparative studies of magnitude representation.
Roi Cohen Kadosh;Jan Lammertyn;Veronique Izard.
Progress in Neurobiology (2008)
Modulating Neuronal Activity Produces Specific and Long-Lasting Changes in Numerical Competence
Roi Cohen Kadosh;Sonja Soskic;Teresa Iuculano;Teresa Iuculano;Ryota Kanai.
Current Biology (2010)
Numerical representation in the parietal lobes: Abstract or not abstract?
Roi Cohen Kadosh;Vincent Walsh.
Behavioral and Brain Sciences (2009)
Optimizing functional accuracy of tms in cognitive studies: A comparison of methods
Alexander T. Sack;Roi Cohen Kadosh;Teresa Schuhmann;Michelle Moerel.
Journal of Cognitive Neuroscience (2009)
The roles of cortical oscillations in sustained attention
Michael S. Clayton;Nick Yeung;Roi Cohen Kadosh.
Trends in Cognitive Sciences (2015)
Notation-Dependent and -Independent Representations of Numbers in the Parietal Lobes
Roi Cohen Kadosh;Roi Cohen Kadosh;Kathrin Cohen Kadosh;Kathrin Cohen Kadosh;Amanda Kaas;Amanda Kaas;Avishai Henik.
Long-Term Enhancement of Brain Function and Cognition Using Cognitive Training and Brain Stimulation
Albert Snowball;Ilias Tachtsidis;Tudor Popescu;Jacqueline Thompson.
Current Biology (2013)
Not all brains are created equal: the relevance of individual differences in responsiveness to transcranial electrical stimulation
Beatrix Krause;Roi Cohen Kadosh.
Frontiers in Systems Neuroscience (2014)
Virtual Dyscalculia Induced by Parietal-Lobe TMS Impairs Automatic Magnitude Processing
Roi Cohen Kadosh;Roi Cohen Kadosh;Kathrin Cohen Kadosh;Kathrin Cohen Kadosh;Teresa Schuhmann;Amanda Kaas;Amanda Kaas.
Current Biology (2007)
The effect of transcranial direct current stimulation: a role for cortical excitation/inhibition balance?
Beatrix Krause;Javier Márquez-Ruiz;Roi Cohen Kadosh.
Frontiers in Human Neuroscience (2013)
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