崔佳歆
发布时间:2021-04-02 浏览次数:0次
基本信息
姓名:崔佳歆
性别:女
职称:副教授
所在教研室:心理系教研室
出生日期:1981年3月
学历学位:博士研究生
研究方向:数学和语言能力发展的认知神经机制
E-mail:cuijx@bnu.edu.cn
学习、工作经历(自大学始填)
2000-2004 北京师范大学 学士
2004-2009 北京师范大学博士
2009-2012 中科院心理所 博士后
2012-2019 北京师范大学科研人员
2019- 河北师范大学副教授
教学工作
讲授研究生课程:《数学认知与学习》,《数学认知神经科学研究前沿》,《教育实验研究》(北京师范大学)
《基础心理学专题研究》(河北师范大学)
科研工作
学术著作:
崔佳歆,《教育神经科学视野中的数学教育创新》,参与编写,2016。.
学术论文:
1. Li, R., Cui, J., Yuan, L., Yu, X., Zhou, X. (2021). Common neural circuit for semantic-based articulation of numbers and words: A case study of a patient with Broca’s aphasia. Journal of Neurolinguistics, 58, 100969. doi: 10.1016/j.jneuroling.2020.100969
2. Cui, J., Li, L., Li, M., Siegler, R., & Zhou, X. (2020). Middle temporal cortex is involved in processing fractions. Neuroscience Letters, 725, 134901. doi: 10.1016/j.neulet.2020.134901
3. Cui, J., Xiao, R., Ma, M., Yuan, L., Cohen Kodash R., & Zhou, X. (2020). Children skilled in mental abacus show enhanced non-symbolic number sense. Current Psychology. doi: 10.1007/s12144-020-00717-0
4. 崔佳歆,张译允. (2020). 数学脑存在吗?教育家,第28期,66-68页。
5. Cui, J., Zhang, Y., Wan, S., Chen C., & Zeng, J., Zhou, X. * (2019). Visual form perception is fundamental for both reading comprehension and arithmetic computation. Cognition, 189, 141-154.
6. Cheng, D., Xiao, Q., Cui, J., Chen, C., Zeng, J., Chen Q., & Zhou, X. * (2019). Short-term numerosity training promotes symbolic arithmetic in children with developmental dyscalculia: The mediating role of visual form perception. Developmental Science, e12910.
7. Li, M., Tan, Y., Cui, J., Chen, C., Dong, Q., & Zhou, X.* (2019). The semantic network supports approximate computation. Neuropsychology, 33(6), 842-854.
8. Liu, J., Yuan, L., Chen, C., Cui, J., & Zhou, X. * (2019). The semantic system supports the processing of mathematical principles. Neuroscience, 404, 112-118.
9. 周新林,崔佳歆. (2019.11.06). 数学学习困难怎么办?人民政协报.
10. Zhou, X.*, Li, M., Li, L., Zhang, Y., Cui, J. *, Liu, J., & Chen, C. (2018). The semantic system is involved in mathematical problem solving. NeuroImage, 166, 360-370.
11. Rodic, M.#, Cui, J. #, Malykh, S., Zhou, X., Gynku, E.I., Bogdanova, E.L., … & Kovas, Y. * (2018). Cognition, emotion, and arithmetic in primary school: A cross-cultural investigation. British Journal of Developmental Psychology, 36, 255–276.
12. Zhou, X.*, Li, M., Zhou, H., Li, L., Cui, J. (2018). Item-wise interindividual brain-behavior correlation in task neuroimaging analysis. Frontiers in Neuroscience, 12, 817.
13. Cheng, D., Xiao, Q., Chen, Q., Cui, J., & Zhou, X. * (2018). Dyslexia and dyscalculia are characterized by common visual perception deficits. Developmental Neuropsychology, 43 (6), 497-507.
14. Cui, J., Georgiou, G. K. *, Zhang, Y., Li, Y., Shu, H., & Zhou, X. (2017). Examining the relationship between rapid automatized naming and arithmetic fluency in Chinese kindergarten children. Journal of Experimental Child Psychology, 154, 146-153.
15. Cui, J., Zhang, Y., Cheng, D., Li, D., & Zhou, X. * (2017). Visual form perception can be a cognitive correlate of lower level math categories for teenagers. Frontiers in Psychology, 8, 1336.
16. Liu, J., Zhang, H., Chen, C., Chen, H., Cui, J., & Zhou, X. * (2017). The neural circuits for arithmetic principles. NeuroImage, 147, 432-446.
17. Zhou, X. *, Shen, C., Li, L., Li, D., & Cui, J.* (2016). Mental Numerosity Line in the Human’s Approximate Number System. Experimental Psychology, 63(3), 169-179.
18. Zhang, Y., Chen, C., Liu, H., Cui, J., & Zhou, X. * (2016). Both non-symbolic and symbolic quantity processing are important for arithmetical computation but not for mathematical reasoning. Journal of Cognitive Psychology, 28(7), 807-824.
19. Yu, X., Liu, J., Li, D., Liu, H., Cui, J., & Zhou, X. * (2016). Dynamic mental number line in simple arithmetic. Psychological Research, 80(3), 410-421.
20. Zhou, X. *, Wei, W., Zhang, Y., Cui, J., Chen, C. (2015). Visual perception can account for the close relation between numerosity processing and computational fluency. Frontiers in Psychology, 6, 1364.
21. Cui, J., Yu, X., Yang, H., Chen, C., Liang, P., & Zhou, X. * (2013). Neural correlates of quantity processing of numeral classifiers. Neuropsychology, 27(5), 583-594.
22. Bailey, D. H. *, Zhou, X., Zhang, Y., Cui, J., Fuchs, L. S., Jordand, N. C., Gerstene, R., & Siegler R.S. (2015). Development of fraction concepts and procedures in U.S. and Chinese children. Journal of Experimental Child Psychology, 129, 68-83.