1997.09-2002.07 山东建筑工程学院 学士
2003.09-2008.04 北京理工大学 博士
2008.08-2010.08 University of British Columbia 博士后
2010.10-2013.01 Princeton University 博士后
2013.02至今 中国科学院心理研究所 研究员
国家自然科学基金委“优青”
北京市“科技新星计划”
(*corresponding author; #equal contribution):
[1] Chen, D., Kunz, L., Lv, P.C., Zhang, H., Zhou, W.J., Liang, S.L., Axmacher, N., and Wang, L*. (2021). Theta oscillations coordinate grid-like representations between ventromedial prefrontal and entorhinal cortex. Science Advances 7, eabj0200.
[2] Chen, S., Tan, Z., Xia, W.R., Gomes, C.A., Zhang, X.L., Zhou, W.J., Liang, S.L., Axmacher, N., and Wang, L*. (2021). Theta oscillations synchronize human medial prefrontal cortex and amygdala during fear learning. Science Advances 7, eabf4198.
[3] Kunz, L*., Maidenbaum, S*., Chen, D., Wang, L*.., Jacobs, J*., and Axmacher, N*. (2019). Mesoscopic Neural Representations in Spatial Navigation. Trends Cogn Sci 23, 615-630.
[4] Liu, J#., Yu, T#., Wu, J., Pan, Y., Tan, Z., Liu, R., Wang, X., Ren, L., and Wang, L*. (2021). Anterior thalamic stimulation improves working memory precision judgments. Brain Stimul 14, 1073-1080.
[5] Qin, C#., Tan, Z#., Pan, Y., Li, Y., Wang, L., Ren, L., Zhou, W., and Wang, L*. (2017). Automatic and Precise Localization and Cortical Labeling of Subdural and Depth Intracranial Electrodes. Frontiers in Neuroinformatics 11, 10.
[6] Saalmann, Y.B*., Pinsk, M.A. #, Wang, L.#, Li, X., and Kastner, S. (2012). The pulvinar regulates information transmission between cortical areas based on attention demands. Science 337, 753-756.
[7] Wang, L., Li, H., Liang, Y., Zhang, J.Y., Li, X., Shu, N., Wang, Y.Y., and Zhang, Z.J*. (2013). Amnestic mild cognitive impairment: Topological reorganization of the default mode network. Radiology 268, 501-514.
[8] Wang, L#* ., Mruczek, R.E#., Arcaro, M.J., and Kastner, S*. (2015). Probabilistic Maps of Visual Topography in Human Cortex. Cerebral Cortex 25, 3911-3931.
[9] Wang, L#*., Saalmann, Y.B#., Pinsk, M.A., Arcaro, M.J., and Kastner, S. (2012). Electrophysiological low-frequency coherence and cross-frequency coupling contribute to BOLD connectivity. Neuron 76, 1010-1020.
[10] Wang, L#., Yu, C#., Chen, H., Qin, W., He, Y., Fan, F., Zhang, Y., Wang, M., Li, K., Zang, Y., Woodward, T. S., and Zhu, C*. (2010). Dynamic functional reorganization of the motor execution network after stroke. Brain 133, 1224-1238.