个人信息简介
姓名:李东伟 学历:博士 职称:青年英才 特聘副研究员 电子邮箱:DongweiLi@bnu.edu.cn
江苏南京人。主持北京师范大学人才引进项目1项,参与国家级项目3项,在Science Advances, PLoS Biology, Neuroimage等刊物发表学术文章20余篇。
教育背景
2012.09–2016.06 江苏大学,物理学,理学学士
2016.09–2023.06 北京师范大学,心理学,理学博士,导师:宋艳 教授
工作经历
2021.10–2022.10 University of Birmingham,国家公派访问学者,合作导师:Ole Jensen教授
研究方向
1. 大脑序列编码在记忆和语言中的神经基础与计算模型;
2. 发育和老化的认知评估以及神经增强技术的临床应用;
3. 自然刺激下的非线性神经动力学表征与脑启发的人工智能。
科研项目
1. 阅读和记忆的神经序列编码与神经增强技术;北京师范大学珠海校区引进人才启动经费;2023-2026;主持
2. 视觉注意机制及其启发的脉冲神经网络研究;国家基础加强计划技术领域基金;2022-2025;参与
3. 近红外光生物调节对ADHD成年人工作记忆广度及精度的影响;国家精神心理疾病临床医学研究中心;2021-2023;参与
4. 儿童视空间注意发育及其于中文阅读学习关系的神经机制研究;国家自然科学基金面上项目;2020-2022;参与
发表论文(*通讯作者,#共同第一作者)
论文列表详见:https://scholar.google.com/citations?user="zddnKD8AAAAJ&hl=en
1. Li, D.#, Hu, Y.#, Qi, M., Zhao, C., Jensen, O., Huang, J.*, & Song, Y.* (2023). Prioritizing flexible working memory representations through retrospective attentional strengthening. Neuroimage . 269, 119902.
2. Zhao, C.#, Li, D.#, Liu, H., Kong, Y., Hu, Y., Niu, H., … & Song, Y.* (2022). Transcranial photobiomodulation enhances visual working memory capacity in humans. Science Advances . 8, eabq3211.
3. Li, D.#, Luo, X.#, Guo, J., Kong, Y., Hu, Y., Chen, Y., …, Sun, L.*, & Song, Y.* (2023). Imprecise target localization in children with ADHD during visual selective attention. Human Brain Mapping . 44, 937-947.
4. Li, D., Zhang, X., Kong, Y., Yin, W., Jiang, K., Guo, X., …, Song, Y.*, & Chen, M.* (2022). Lack of neural load modulation explains attention and working memory dysfunctions in first-episode schizophrenia. Clinical Neurophysiology . 136, 206-218.
5. Li, D., Zhao, C., Guo, J., Kong, Y., Li, H., Du, B., ... & Song, Y.* (2021). Visual Working Memory Guides Spatial Attention: Evidence from alpha oscillations and sustained potentials. Neuropsychologia . 151, 107719.
6. Yuan, X.#, Li, D.#, Y., Qi, M., Kong, Y., Zhao, C., Huang, J.*, & Song, Y. (2023). Neural and behavioral evidence supporting the relationship between habitual exercise and working memory precision in healthy young adults. Frontiers in Neuroscience . Accepted.
7. Zhao, C.#, Kong, Y.#, Li, D., Huang, J., Li, X, Jensen, O., & Song, Y.* (2023). Neural mechanisms underlying distractor suppression guided by spatial cues. PLoS Biology . 21(3): e3002014.
8. Zhao, C., Li, D., Guo, J., Li, B., Kong, Y., Hu, Y., … Song Y.* (2022). The Neurovascular Couplings Between Electrophysiological and Hemodynamic Activities in Anticipatory Selective Attention. Cerebral Cortex , bhab525
9. Luo, X., Guo, J., Li, D., Liu, L., Chen, Y., Zhu, Y., … Song, Y.*, & Sun, L.* (2021). Atypical developmental trajectories of early perception among school-age children with attention deficit hyperactivity disorder during a visual search task. Child Development , 92(6), e1186-e1197.
10. Zhao, C., Guo, J., Li, D., Tao, Y., Ding, Y., Liu, H., & Song, Y.* (2019). Anticipatory alpha oscillation predicts attentional selection and hemodynamic response. Human Brain Mapping , 40(12), 3606-3619.
社会工作
Brain-X 2023-今特邀编辑;
Organizationof Human Brain Mapping 2023 年会摘要审稿人;
Biomagnetism 2022 会议组织工作组成员;
Neuroimage,Cerebral Cortex,Human Brain Mapping 等杂志审稿人;
Cognitive Neuroscience Society; British Association of Cognitive Neuroscience; Biomagnetism会员。
荣誉获奖
受邀报告
1. “Transcranial photobiomodulation enhances visual working memory capacity in humans.” 3rd Working Memory Symposium, Online; 2022.6.
2. “Temporal Dynamics of Attentional Strengthening and Priority Modulation in Working Memory.” Lecture in Department of Psychology, Birmingham, UK; 2022.6.
3. “Dose effect and Neural Substrate underlying the Cognitive Enhancement of Visual Working Memory Quantity and Quality by Transcranial Photobiomodulation.” CHBH Research Discussion at University of Birmingham, UK; 2022.5.
4. “Temporal Dynamics of Attentional Strengthening and Priority Modulation in Working Memory.” British Association of Cognitive Neuroscience (BACN), Annual Meeting, Birmingham, UK; 2022.5. (Blitz Talk)
5. “Interaction between spatial attention and visual working memory from alpha oscillation and sustained potentials.” Cognitive Neuroscience Society (CNS), 26th Annual Meeting, San Francisco, America; 2019.3. (Data Blitz)