工作经历

1. 2018-至今，北京师范大学，心理学部，教授

2. 2016-2018，深圳大学，心理与社会学院，特聘教授

3. 2013-2016，中科院生物物理所脑与认知科学国家重点实验室，项目研究员

4. 2010-2013，中科院生物物理所脑与认知科学国家重点实验室，副研究员

5. 2007-2009，中科院生物物理所脑与认知科学国家重点实验室，博士后

6. 2006-2010，中科院生物物理所脑与认知科学国家重点实验室，助理研究员

教育经历：

1. 1998-2005，中国科学院研究生院，生物物理，理学博士

2. 1994-1998，中国科学技术大学，生物学，学士

承担项目：

1. 科技创新2030-“脑科学与类脑研究”重大项目课题，“注意的神经计算模型”（2021ZD0203803），2021/11-2026/10，在研，主持。

2. 国家重点研发计划项目课题，“大脑功能机制模型与类脑算法模块”（2019YFA0709503），2020/06-2025/05，在研，参与。

3. 国家自然科学基金委面上项目，“视觉选择性注意的皮层下通路加工机制” （31671133），2017/01-2020/12，已结题，主持。

4. 国家重点基础研究发展计划(“973”计划)课题，“视觉认知基本单元的认知科学实验证据”（2012CB825502），2012/01-2016/12，已结题，主持。

5. 国家自然科学基金委面上项目，“多物体跟踪现象中的物体连续性知觉及其神经机制”（31171081），2012/01-2015/12，已结题，主持。

代表性论文：

(1) Perception

l Tian J, Xu W, Si B, Sun G*, & Zhou K* (2025) Temporal dynamics of quantity processing: distinct time course and representational patterns revealed by multivariate pattern analysis. Neuroimage, 318:121367.

l Zhang Y, Zhou K*, Bao P, & Liu J* (2024) A biologically inspired computational model of human ventral temporal cortex. Neural Networks, 178:106437.

l Zhang D, Xie Y, Wang L*, & Zhou K* (2024) Structural and transcriptional signatures of arithmetic abilities in children. NPJ Science of Learning, 9:58.

l Zang Z, Chi X, Luan M, Hu S*, Zhou K*, & Liu J (2024) Inter-individual, hemispheric and sex variability of brain activations during numerosity processing. Brain Structure & Function, 229:459-475.

l Zhang D, Zhou L, Yang A, Li S, Chang C, Liu J, & Zhou K* (2023) A connectome-based neuromarker of nonverbal number acuity and arithmetic skills. Cerebral Cortex, 33:881-894.

l Yuan X, Ni L, Li H, Zhang D*, & Zhou K* (2023) The neural correlates of individual differences in numerosity perception: A voxel-based morphometry study. iScience, 26:107392.

l Zhou L, Yang A, Meng M*, & Zhou K* (2022) Emerged human-like facial expression representation in a deep convolutional neural network. Science Advances, 8:eabj4383.

l Zhou C, Xu W, Liu Y, Xue Z, Chen R, Zhou K*, & Liu J* (2021) Numerosity representation in a deep convolutional neural network. Journal of Pacific Rim Psychology, 15:1-11.

l He L, Zhou K*, Zhou T, He S, & Chen L* (2015) Topology-defined units in numerosity perception. Proceedings of the National Academy of Sciences, 112:E5647-E5655.

(2) Attention

l Gao W, Zhu C, Si B, Zhou L*, & Zhou K* (2025) Precision-dependent modulation of social attention. Neuroimage, 310:121166.

l Yang F, Yuan P, Shen L, Zhou K, He S, & Jiang Y (2025) Visual awareness sharpens and accelerates attentional sampling through enhancing inhibitory neural modulation in the attention network. Nature Communications, 16:10058.

l Yang A, Tian J, Wang W, Zhou L*, & Zhou K* (2025) Shared and distinct neural signatures of feature and spatial attention. Neuroimage, 317:121296.

l Meng Z, Huang Y, Wang W, Zhou L*, & Zhou K* (2024) Orienting role of the putative human posterior infero-temporal area in visual attention. Cortex, 175:54-65.

l Zhou L, Liu Y, Jiang Y, Wang W, Xu P, & Zhou K* (2024) The distinct development of stimulus and response serial dependence. Psychonomic Bulletin & Review, 31:2137-2147.

l Zhang D, Zhang R, Zhou L, Zhou K*, & Chang C* (2023) The brain network underlying attentional blink predicts symptoms of attention deficit hyperactivity disorder in children. Cerebral Cortex, 33:2761-2773.

l Zhou L, & Zhou K* (2020) Categorical similarity modulates temporal integration in the attentional blink. Journal of Vision, 20:1-12.

l Zhou L, Zhen Z*, Liu J, & Zhou K* (2020) Brain Structure and Functional Connectivity Associated with Individual Differences in the Attentional Blink. Cerebral Cortex, 30:6224-6237.

l Song K, Meng M, Chen L, Zhou K*, & Luo H* (2014) Behavioral Oscillations in Attention: Rhythmic alpha Pulses Mediated through theta Band. Journal of Neuroscience, 34:4837-4844.

l Du X, Chen L*, & Zhou K* (2012) The role of the left posterior parietal lobule in top-down modulation on space-based attention: a transcranial magnetic stimulation study. Human Brain Mapping, 33:2477-2486.

l Zhou K*, Luo H, Zhou T, Zhuo Y, & Chen L (2010) Topological change disturbs object continuity in attentive tracking. Proceedings of the National Academy of Sciences, 107:21920-21924.

(3) Language

l Li J, Zhang D, Ren H, Zhou K*, & Yang Y* (2025) Connectome-based predictive modeling of handwriting and reading using task-evoked and resting-state functional connectivity. iScience, 28:113075.

l Yang Y, Li J, Zhao K, Tam F, Graham S, Xu M, & Zhou K* (2024) Lateralized Functional Connectivity of the Sensorimotor Cortex and its Variations During Complex Visuomotor Tasks. Journal of Neuroscience, 44:e0723232023.

l Kwok V, Niu Z, Kay P, Zhou K, Mo L, Jin Z, So K, & Tan L (2011) Learning new color names produces rapid increase in gray matter in the intact adult human cortex. Proceedings of the National Academy of Sciences, 108:6686-6688.

l Zhou K, Mo L, Kay P, Kwok V, Ip T, & Tan L (2010) Newly trained lexical categories produce lateralized categorical perception of color. Proceedings of the National Academy of Sciences, 107:9974-9978.

(4) Sleep deprivation

l Zhang D, Zhou L, Wang R, Han Y, Zuo Z, Tian Y*, & Zhou K* (2026) Inhibitory Decay and Supercritical Brain Dynamics During Sleep Deprivation. Advanced Science, e75698.

l Zhang D, Wang R, Zhou L, Zhou K, Zuo Z, & Sun G (2026) Biphasic adaptation of gBOLD-CSF coupling during sleep deprivation reflects compensatory enhancement and temporal disruption in glymphatic function. Neuroimage, 328:121769.

l Zhou L, Tang Z, Zuo Z, & Zhou K* (2022) Neural mechanism underlying the sleep deprivation-induced abnormal bistable perception. Cerebral Cortex, 22:583-592.

《认知心理学》

《工程心理学》

《实验心理学实验课》