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林楠
(中國科學院心理研究所副研究員)
鎖定
林楠,男,中國人,中國科學院心理研究所認知與發展心理學研究室 副研究員。
- 中文名
- 林楠
- 國 籍
- 中國
- 畢業院校
- 北京師範大學 [1]
- 性 別
- 男
- 職 務
- 中國科學院心理研究所副研究員
林楠基本信息
姓名:林楠
職稱:副研究員
學歷:博士
通訊地址:北京市朝陽區林萃路16號院中科院心理所
林楠教育經歷
2016.03— 副研 中科院心理所
2012.07—2016.03 助研 中科院心理所
2007.09—2012.07 博士 北京師範大學腦與認知科學研究院 基礎心理學專業
2001.09—2005.07 學士 南開大學生命科學學院 生物技術專業
林楠研究興趣
閲讀的認知與腦機制;語義記憶的認知與腦機制
林楠代表論著
1.Lin,N.*,Xu,Y.,Yang,H.,Zhang,G.,Zhang,M.,Wang,S.,Hua,H.,& Li,X.(2020). Dissociating the neural correlates of the sociality and plausibility effects in simple conceptual combination. Brain Structure and Function.
2.Lin,N.*,Xu,Y.,Wang,X.,Yang,H.,Du,M.,Hua,H.,& Li,X.(2019). Coin,telephone,and handcuffs:Neural correlates of social knowledge of inanimate objects. Neuropsychologia.
3.Lin,N.*,Wang,X.,Xu,Y.,Hua,H.,Zhao,Y.,& Li,X.(2018). Fine Subdivisions of the Semantic Network Supporting Social and Sensory-Motor Semantic Processing. Cerebral Cortex
4.Lin,N.*,Yang,X.,Li,J.,Wang,S.,Hua,H.,Ma,Y.,& Li,X.(2018). Neural correlates of three cognitive processes involved in theory of mind and discourse comprehension. Cognitive,Affective,& Behavioral Neuroscience
5.Yang,X.,Zhang,X.,Yang,Y.,& Lin,N.*(2018). How context features modulate the involvement of the working memory system during discourse comprehension. Neuropsychologia
6.Lin,N.,Angele,B.,Hua,H.,Shen,W.,Zhou,J.,& Li,X.*(2018). Skipping of Chinese characters does not rely on word-based processing. Attention,Perception,& Psychophysics
7.Lin,N.*,Wang,X.,Zhao,Y.,Liu,Y.,Li,X.,& Bi,Y.(2015). Premotor Cortex Activation Elicited during Word Comprehension Relies on Access of Specific Action Concepts. Journal of Cognitive Neuroscience
8.Lin,N.*,Bi,Y.,Zhao,Y.,Luo,C.,& Li,X.(2015). The theory-of-mind network in support of action verb comprehension:Evidence from an fMRI study. Brain and language
9.Lin,N.,Guo,Q.,Han,Z.,& Bi,Y.*(2011). Motor knowledge is one dimension for concept organization:Further evidence from a Chinese semantic dementia case. Brain and Language
10.Lin,N.,Lu,X.,Fang,F.,Han,Z.,& Bi,Y*.(2011). Is the semantic category effect in the lateral temporal cortex due to motion property differences. NeuroImage