教育经历

华东师范大学，2018.09至2022.06，上海，心理与认知科学学院，博士，发展与教育心理学；

华南师范大学，2014.09至2018.01，广州，心理学院，硕士，发展与教育心理学；

西南民族大学，2010.09至2014.06，成都，社会学与心理学学院，理学学士，应用心理学。

研究主题

当前的研究主题是创造力的相关脑机制、创造力的阴暗面、功能磁共振任务态和静息态数据的大脑网络分析以及儿童创造力发展等。

邮箱：zgao@sicnu.edu.cn

科研成果

一作或通讯期刊论文（^#表示一作，*表示通讯作者）

1.     ^#Gao, Z., ^#Liu, X., Gao, M., & ^*Hao, N. (2025). Neural correlates underlying creative ideation associated with malevolent or benevolent intentions. Cerebral Cortex. 35, bhaf010.

2.     ^#Gao, Z., ^#Qiao, X., Lu, K., Wang, X., & ^*Hao, N. (2025). Dynamic amplitude of low-frequency fluctuation links dark personalities to malevolent creative behavior. Brain and Cognition. 183, 106245.

3.     ^#Liu, X., ^#*Gao, Z., Qiao, X., He, X., Liu, W., & Wang, N. (2025). Exploring the Relationships Among Little-C, Big-C, and Divergent Thinking: A Resting-State fMRI Study. The Journal of Creative Behavior, 59, e70014.

4.     ^#Gao, Z., Lu, K., & ^*Hao, N. (2023). Transcranial direct current stimulation (tDCS) targeting the postcentral gyrus reduces malevolent creative ideation. Social Cognitive and Affective Neuroscience. 18, nsad019.

5.     ^#*Liu, X., ^#Gao, Z., Liu, W., He, X., & Wang, N. (2023). AoA-L2 and Usage-L2 modulate the functional neuroplasticity of the subcortex. Brain and Language. 245, 105323.

6.     ^#Gao, Z, ^#Qiao, X., & ^*Hao, N. (2022). Darkness within: The internal mechanism between Dark Triad and malevolent creativity. Journal of Intelligence. 10, 119.

7.     ^#Lu, K., ^#Gao, Z., ^#Wang, X., Qiao, X., He, Y., Zhang, Y., & ^*Hao, N. (2022). The hyper-brain neural couplings distinguishing high-creative group dynamics: an fNIRS hyperscanning study. Cerebral Cortex. bhac161.

8.     ^#Gao, Z., Cheng, L., Li, J., Chen, Q., & ^*Hao, N. (2022). The dark side of creativity: Neural correlates of malevolent creative idea generation. Neuropsychologia. 167, 108164.

9.     ^#Gao, Z., ^#Liu, X., Zhang, D., Liu, M., & ^*Hao, N. (2021). Subcortical structures and visual divergent thinking: A resting-state functional MRI analysis. Brain Structure and Function. 226, 2617–2627.

10.  ^#Gao, Z., ^#Liu, X., Zhang, D., Liu, M., & ^*Hao, N. (2020). The Indispensable role of the cerebellum in visual divergent thinking. Scientific Reports. 10, 16552.

11.  ^#Zhang, D., ^#Gao, Z., Liang, B., Wang, Z., Lin, Y., Cai, Y., Li, J., Gao, M., Jiao, B., ^*Huang, R., & ^*Liu, M. (2019). Eyes Closed Elevates Brain Intrinsic Activity of Sensory Dominance Networks: A Classifier Discrimination Analysis. Brain Connectivity. 9, 221–230.

12.  ^#Gao, Z., ^#Zhang, D., Liang, A., Liang, B., Wang, Z., Y., Cai, Li, J., Gao, M., Liu, X., Chang, S., Jiao, B., ^*Huang, R., & ^*Liu, M. (2017). Exploring the associations between intrinsic brain connectivity and creative ability using functional connectivity strength and connectome analysis. Brain Connectivity.7, 590–601.

其他期刊论文（^#表示一作，*表示通讯作者）

1.        ^#Wang, X., Lu, K., He, Y., Qiao, X., Gao, Z., Zhang, Y., & ^*Hao, N. (2024). Dynamic brain networks in spontaneous gestural communication. npj science of learning. 9, 59.

2.        ^#Liu, X., Zhang, Y., Weng, Y., Zhong, M., Wang, L., Gao. Z., Hu. H., Zhang, Y., Huang, B., & ^*Huang, R. (2024). Levodopa therapy affects brain functional network dynamics in Parkinson’s disease. Progress in Neuropsychopharmacology & Biological Psychiatry. 136, 111169.

3.        ^#Wang, X., Lu, K., He, Y., Gao, Z., & ^*Hao, N. (2022). Close spatial distance and direct gaze bring better communication outcomes and more intertwined neural networks. Neuroimage. 261, 119515.

4.        ^#Qiao, X., Lu, K., Teng, J., Gao, Z., & ^*Hao, N. (2022). Middle occipital area differentially associates with malevolent versus benevolent creativity: An fNIRS investigation. Social Neuroscience. 17, 127–142.

5.        ^#Cai, Y., ^#Zhang, D., Liang, B., Wang, Z., Li, J., Gao, Z., Gao, M., ^*Huang, R., & ^*Liu, M. (2018). Relation of visual creative imagery manipulation to resting-state brain oscillations. Brain Imaging and Behavior. 12, 258–273.

6.        ^#Li, J., ^#Zhang, D., Liang, A., Liang, B., Wang, Z., Cai, Y., Gao, M., Gao, Z., ^*Liu, M., & ^*Huang, R. (2017). High transition frequencies of dynamic functional connectivity states in the creative brain. Scientific Reports. 7, 46072.

7.        ^#Gao, M., ^#Zhang, D., Wang, Z., Liang, B., Cai, Y., Gao, Z., Li, J., ^*Huang, R., & ^*Liu, M. (2017). Mental rotation task specifically modulates functional connectivity strength of intrinsic brain activity in low frequency domains: A maximum uncertainty linear discriminant analysis. Behavioural brain research. 320, 233–243.

8.        ^#Jiao, B., ^#Zhang, D., Liang, A., Liang, B., Wang, Z., Li, J., Cai, Y., Gao, M., Gao, Z., ^*Liu, M., & ^*Huang, R. (2017). Association between resting-state brain network topological organization and creative ability: Evidence from a multiple linear regression model. Biological Psychology. 129, 165–177.

科研项目

1.     教育部人文社会科学一般项目（青年基金项目），共情影响恶意创造力表现的神经机制及无创神经调控（23YJC190009），2023–2026，负责人

2.     2019年华东师范大学优秀博士研究生学术能力提升项目（YBNLTS2019-027），2019–2021，负责人

3.     国家自然科学基金面上项目：团体创造活动中的脑–脑间神经互动机制（31971002），2020–2023，主要参与

4.     教育部人文社科规划基金项目，“具身—对话”交互模式影响学习者在线学习投入的认知及神经机制研究（24YJA880026），2025–2027，主要参与

编辑：脑与心理科学研究院