汪俊

时间:2017-03-17浏览:446

姓名

汪俊

部门

心理系


职称

双龙特聘教授

职务


学历、学位

博士

学术称号

浙江省千人计划学者

办公电话

0579-82282549

Email

jun.wang@zjnu.edu.cn

实验室主页

http://childlab.zjnu.edu.cn/

研究方向

认知与发展神经科学、临床心理学

科研简况及代表性成果:

研究方向为认知与发展神经科学、医学心理学运用包括行为测试、脑成像和电生理的多模态方法对正常人和脑疾病患者(包括精神分裂症、孤独症和脆性X综合症)的认知发展神经机制进行研究。研究成果发表在Journal of Neuroscience, Cerebral Cortex, Neuroimage,   Translational Psychiatry, Neuropsychologia, Psychophysiology, Journal of   Neurodevelopmental Disorders, Journal of Vision等国际一流期刊上。


代表性成果(*通信作者)

1.Wang,J.*, Ethridge,L.E., Mosconi,M.W., White,S.P., Binder,D.K.,   Pedapati, E.V., Erickson,C.A., Byerly,M.J., Sweeney,J.A.(2017). A Resting EEG   Study of Neocortical Hyperexcitability and Altered Functional Connectivity in   Fragile X Syndrome. Journal of Neurodevelopmental Disorders.9:11


2.Shou,G., Mosconi, M. W., Wang, J., Ethridge,L.E.,   Mosconi,M.W., Sweeney,J.A., Ding, L.* (2017). Electrophysiological signatures   of atypical intrinsic brain connectivity networks in autism. Journal   of Neural Engineering. in press


3.Ethridge,L.E.*, White, S.   P., Mosconi,M.W., Wang, J.,   Pedapati, E.V., Erickson,C.A., Byerly,M.J., Sweeney,J.A.(2017). Neural   synchronization deficits linked to cortical hyper-excitability and auditory   hypersensitivity in fragile X Syndrome. Molecular Autism.8:22


4.Ethridge, L.E.*, White,   S.P., Mosconi,M.W., Wang,J.,   Byerly,M.J., Sweeney,J.A.(2016). Reduced habituation of auditory evoked   potentials indicate cortical hyper- excitability in Fragile X Syndrome. Translational   Psychiatry.6,e787


5.Hu, F., Jiao, C. Zhao, S.,   Dong, H., Liu, X., Yi, Y., Wang, J.*   (2015). The effectsofpre-allocatedattentionandtarget-backgroundintegrationon object-based attention. PLOS ONE.10(3):e0119414


6.Wang, J., Mathalon, D., Roach, B., Reilly, J., Keedy, S., Sweeney,   J., Ford, J.* (2014). Action planning and predictive coding when speaking. Neuroimage,   91, 91-98.


7.Wang, J.*, Barstein, J., Ethridge, L., Mosconi, M., Takarae, Y.,   Sweeney, J. (2013). Resting state EEG abnormalities in autism spectrum   disorders. Journal of Neurodevelopmental Disorders, 5(24), 1-14.


8.Wang, J., Dobkins K. R., McDowell J. E., Clementz, B. A.*2012 Neural response to the second stimulus associated with poor speed   discrimination performance in schizophrenia. Psychophysiology, 49   (2), 198-206.


9.Wang, J., Wade, A. R.* (2011). Differential attentional modulation of   cortical responses to S-cone and luminance stimuli. Journal of Vision,   11(6),1-15.


10.Wang, J., Brown, R., Dobkins, K.   R., McDowell, J. E., Clementz, B. A.*(2010). Diminished parietal cortex   activity associated with poor motion direction discrimination performance in   schizophrenia. Cerebral Cortex, 20(7),1749-1755.


11.Clementz, B. A.*, Wang, J., & Keil, A. (2008).   Normal neural enhancements to specific visual stimuli but abnormal behavioral   performance during feature- based selective attention in schizophrenia. The   Journal of Neuroscience,28(50), 13411-13418.


12.Wang, J., Clementz, B. A.*, &   Keil, A. (2007). The neural correlates of feature-based selective attention   when viewing spatially and temporally overlapping images. Neuropsychologia,   45(7), 1393-1399.


13.Mahan, R. P.*, Wang, J., Yanchus, N., Elliott, L. R., Redden, E. S. Shattuck, R.   (2006). Iconic representation and dynamic information fidelity: Implications   for decision support. Army Research, ARL-CR-0580, 1-35.


14.Zhang, T.*, Wang, J., Zheng, X. (2001). The perception of double auditory   signals transmitted by headphonein Chinese. Chinese   Journal of Applied Psychology, 7(2),44-49.