刘晓瑾,广东潮州人,博士毕业于德国杜塞尔多夫大学医学院,期间以访问学者身份在德国亥姆霍兹联合会于利希研究中心神经科学与医学研究所(INM-7)开展科研工作。现为北京师范大学教育学部教育科技中心教育神经科学实验室讲师。
研究领域
教育神经科学,认知与发展心理学,心理健康教育
研究方向
1) 利用功能磁共振成像技术(fMRI)探究影响第二语言习得的因素、个体创造力差异形成的脑机制
2) 结合多模态脑成像技术探究大脑结构和功能分区
3) 学校和家庭心理健康教育
学习经历
2017.10-2021.08 杜塞尔多夫大学 医学院 医学(哲学)博士
2014.09-2016.06 华南师范大学 心理学院 应用心理硕士
发表论文
†共同一作
1) Liu X, Eickhoff S B, Caspers S, et al. Functional parcellation of human and macaque striatum reveals human-specific connectivity in the dorsal caudate[J]. NeuroImage, 2021, 235: 118006.
2) Liu X†, Tu L†, Chen X, et al. Effect of AoA-L2 on L1 and L2 networks in early and late bilinguals[J]. International Journal of Bilingualism, 2021, doi:10.1177/13670069211033026.
3) Gao Z†, Liu X†, Zhang D, et al. Subcortical structures and visual divergent thinking: a resting-state functional MRI analysis[J]. Brain Structure and Function, 2021, 226: 2617-2627.
4) Liu X, Eickhoff S B, Hoffstaedter F, et al. Joint multi-modal parcellation of the human striatum: functions and clinical relevance[J]. Neuroscience Bulletin, 2020, 36(10): 1123-1136.
5) Liu X, Wu X, Zhong M, et al. Dynamic properties of human default mode network in eyes-closed and eyes-open[J]. Brain Topography, 2020, 33(6): 720-732.
6) Liu X†, Tu L†, Chen X, et al. Dynamic Language Network in Early and Late Cantonese–Mandarin Bilinguals[J]. Frontiers in Psychology, 2020, 11: 1189.
7) Weng Y†, Liu X†, Hu H, et al. Open eyes and closed eyes elicit different temporal properties of brain functional networks[J]. NeuroImage, 2020, 222: 117230.
8) Gao Z†, Liu X†, Zhang D, et al. The indispensable role of the cerebellum in visual divergent thinking[J]. Scientific Reports, 2020, 10: 16552.
9) Liu X†, Tu L†, Wang J, et al. Onset age of L2 acquisition influences language network in early and late Cantonese-Mandarin bilinguals[J]. Brain and Language, 2017, 174: 16-28.
10) Friedrich P, Forkel S J, Amiez C, et al. Imaging evolution of the primate brain: the next frontier?[J]. NeuroImage, 2021: 117685.
11) Chen J, Müller V I, Dukart J, et al. Intrinsic connectivity patterns of task-defined brain networks allow individual prediction of cognitive symptom dimension of schizophrenia and are linked to molecular architecture[J]. Biological Psychiatry, 2021, 89(3): 308-319.
12) Reuter N, Genon S, Masouleh S K, et al. CBPtools: a Python package for regional connectivity-based parcellation[J]. Brain Structure and Function, 2020, 225(4): 1261-1275.
13) Wei Q, Zhao L, Zou Y, et al. The role of altered brain structural connectivity in resilience, vulnerability, and disease expression to schizophrenia[J]. Progress in Neuro-Psychopharmacology and Biological Psychiatry, 2020, 101: 109917.
14) Chen J, Patil K R, Weis S, et al. Neurobiological divergence of the positive and negative schizophrenia subtypes identified on a new factor structure of psychopathology using non-negative factorization: an international machine learning study[J]. Biological Psychiatry, 2020, 87(3): 282-293.
15) Tu L, Niu M, Pan X, et al. Age of Acquisition of Mandarin Modulates Cortical Thickness in High-Proficient Cantonese–Mandarin Bidialectals[J]. Journal of Psycholinguistic Research, 2020, 50(4): 723-736.
16) Zhong M, Yang W, Huang B, et al. Effects of levodopa therapy on voxel-based degree centrality in Parkinson’s disease[J]. Brain Imaging and Behavior, 2019, 13(5): 1202-1219.
17) Wu X, Xie Q, Liu X, et al. Spatially Overlapping Regions Show Abnormal Thalamo-frontal Circuit and Abnormal Precuneus in Disorders of Consciousness[J]. Brain Topography, 2019, 32(3): 445-460.
18) Niu C, Tan X, Liu X, et al. Cortical thickness reductions associate with abnormal resting-state functional connectivity in non-neuropsychiatric systemic lupus erythematosus[J]. Brain Imaging and Behavior, 2018, 12(3): 674-684.
19) Zhao L, Tan X, Wang J, et al. Brain white matter structural networks in patients with non-neuropsychiatric systemic lupus erythematosus[J]. Brain Imaging and Behavior, 2018, 12(1): 142-155.
20) Niu M, Wang Y, Jia Y, et al. Common and specific abnormalities in cortical thickness in patients with major depressive and bipolar disorders[J]. EBioMedicine, 2017, 16: 162-171.
21) Gao Z, Zhang D, Liang A, et al. Exploring the associations between intrinsic brain connectivity and creative ability using functional connectivity strength and connectome analysis[J]. Brain Connectivity, 2017, 7(9): 590-601.
主持、参与的科研项目
1) 国家自然科学基金面上项目,31970990,重复博弈中不平等规避与权力感影响合作行为的认知神经机制,参与
2) 国家自然科学基金青年项目,71701080,好奇影响灵感产生的现象与机制:认知与情绪双加工路径,参与
学术交流
1) 2020年 第四届欧洲华人心理与脑科学会议Chinese Association for Psychological & Brain Science (online)
2) 2020年 26th Annual Meeting of the Organization for Human Brain Mapping (online)
3) 2020年 Chinese Association for Psychological & Brain Science Meeting, NEUROCHAT (online)
4) 2020年 BigBrain Workshop: Launch of the Helmholtz International BigBrain Analytics and Learning Laboratory (online)
5) 2019年 英国伦敦 PRIME-DE Global Collaboration Workshop
6) 2019年 德国杜塞尔多夫 Comparative MRI Meeting
7) 2019年 意大利罗马 25th Annual Meeting of the Organization for Human Brain Mappin
8) 2019年 德国杜塞尔多夫 Düsseldorf Symposium on Decision Neuroscience
9) 2019年 德国杜塞尔多夫/于利希研究中心 BigBrain workshops: AI methods and HPC based Processing
10) 2018年 新加坡 24th Annual Meeting of the Organization for Human Brain Mapping
11) 2018年 荷兰内梅亨 第二届欧洲华人心理与脑科学会议 (Chinese Association for Psychological & Brain Sciences 2018 Meeting)
12) 2017年 德国杜塞尔多夫 第一届欧洲华人心理与脑科学会议 (Chinese Association for Psychological & Brain Sciences 2017 Meeting)
13) 2015年 中国北京 中国科学院心理研究所 第三届认知科学北京国际研讨会 (Cognitive Science Beijing Symposium, CSBS2015) 暨第二届国际人脑发育会议 (International Conference of Human Brain Development, ICHBD2015)
联系方式
xiaojin.liu020@gmail.com