His scientific interests lie mostly in Cognitive psychology, Cognition, Creativity, Precuneus and Developmental psychology. His study in Cognitive psychology is interdisciplinary in nature, drawing from both Anterior cingulate cortex, Extraversion and introversion and Divergent thinking. His Cognition research is multidisciplinary, incorporating elements of Reliability, Resting state fMRI, Electrophysiology and Brain mapping.
As a member of one scientific family, Qinglin Zhang mostly works in the field of Electrophysiology, focusing on Event-related potential and, on occasion, Posterior cingulate. The various areas that Qinglin Zhang examines in his Creativity study include Default mode network and Fluency. His studies in Developmental psychology integrate themes in fields like Valence, Voxel-based morphometry, Audiology and Personality.
Qinglin Zhang spends much of his time researching Cognitive psychology, Cognition, Developmental psychology, Neuroscience and Event-related potential. His studies deal with areas such as Creativity, Functional magnetic resonance imaging, Prefrontal cortex, Neural correlates of consciousness and Brain mapping as well as Cognitive psychology. His study in the field of Precuneus also crosses realms of Unconscious mind.
His research in Cognition intersects with topics in Insula and Social psychology. His Developmental psychology research includes themes of Inferior frontal gyrus, Voxel-based morphometry, Audiology, Personality and Voxel. His work is dedicated to discovering how Event-related potential, Electrophysiology are connected with Analysis of variance and other disciplines.
His primary areas of investigation include Cognition, Cognitive psychology, Neuroscience, Creativity and Middle temporal gyrus. The concepts of his Cognition study are interwoven with issues in Young adult, Artificial intelligence and Set. His Cognitive psychology study combines topics from a wide range of disciplines, such as Developmental psychology and Precuneus, Functional magnetic resonance imaging, Default mode network.
His work deals with themes such as Decision bias and Impulsivity, which intersect with Neuroscience. His Creativity research is multidisciplinary, incorporating perspectives in Late adolescence and Prefrontal cortex. His Middle temporal gyrus research incorporates themes from Divergent thinking and Superior frontal gyrus.
Qinglin Zhang focuses on Cognition, Creativity, Cognitive psychology, Precuneus and Default mode network. Qinglin Zhang interconnects Test, Young adult, Physical medicine and rehabilitation and Neuroimaging in the investigation of issues within Cognition. Qinglin Zhang combines subjects such as Cognitive development, Developmental psychology, Short-term memory, Personality and Late adolescence with his study of Creativity.
His Cognitive psychology study integrates concerns from other disciplines, such as Parietal lobe and Working memory. His Precuneus research is included under the broader classification of Functional magnetic resonance imaging. His Default mode network research includes elements of Right middle frontal gyrus and Prefrontal cortex.
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An open science resource for establishing reliability and reproducibility in functional connectomics
Xi Nian Zuo;Jeffrey S. Anderson;Pierre Bellec;Rasmus M. Birn.
Scientific Data (2014)
Are we sensitive to valence differences in emotionally negative stimuli? Electrophysiological evidence from an ERP study.
Jiajin Yuan;Qinglin Zhang;Qinglin Zhang;Antao Chen;Antao Chen;Hong Li;Hong Li.
Brain structure links trait creativity to openness to experience
Wenfu Li;Xueting Li;Lijie Huang;Xiangzhen Kong.
Social Cognitive and Affective Neuroscience (2015)
Increased resting functional connectivity of the medial prefrontal cortex in creativity by means of cognitive stimulation
Dongtao Wei;Junyi Yang;Wenfu Li;Kangcheng Wang.
A meta-analysis of neuroimaging studies on divergent thinking using activation likelihood estimation.
Xin Wu;Xin Wu;Wenjing Yang;Wenjing Yang;Dandan Tong;Dandan Tong;Jiangzhou Sun;Jiangzhou Sun.
Human Brain Mapping (2015)
Neural correlates of the "Aha" experiences: evidence from an fMRI study of insight problem solving.
Jiang Qiu;Hong Li;Hong Li;Jerwen Jou;Jia Liu.
The neural basis of insight problem solving: an event-related potential study.
Jiang Qiu;Hong Li;Dong Yang;Yuejia Luo.
Brain and Cognition (2008)
Association of creative achievement with cognitive flexibility by a combined voxel-based morphometry and resting-state functional connectivity study.
Qunlin Chen;Wenjing Yang;Wenfu Li;Dongtao Wei.
Brain mechanism of Stroop interference effect in Chinese characters.
Jiang Qiu;Yuejia Luo;Yuejia Luo;Yuejia Luo;Quanhong Wang;Fenghua Zhang.
Brain Research (2006)
Training your brain to be more creative: brain functional and structural changes induced by divergent thinking training
Jiangzhou Sun;Qunlin Chen;Qinglin Zhang;Yadan Li.
Human Brain Mapping (2016)
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