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Song F, Dong X*, Zhao J, Wang J, Sang X, He X, Bao M*. (2024). Causal Role of the Frontal Eye Field in Attention-induced Ocular Dominance Plasticity. eLife, In Press. doi: 10.7554/eLife.93213.

He X*, Bao M*. (2024). Neuroimaging evidence of visual-vestibular interaction accounting for perceptual mislocalization induced by head rotation. Neurophotonics, 11(1), 015005 (2024), doi: 10.1117/1.NPh.11.1.015005.

Wang J#, Song F#, He X*, Bao M.(2024). Negligible contribution of adaptation of ocular opponency neurons to the effect of short-term monocular deprivation. Frontiers in Psychology, 14:1282113. doi: 10.3389/fpsyg.2023.1282113.

Dong X, Liu L, Du X, Wang Y, Zhang P, Li Z*, Bao M*. (2023). Treating amblyopia using altered reality enhances the fine-scale functional correlations in early visual areas. Human Brain Mapping, 44(18):6499-6510.

Song F, Lyu L*, Bao M*. (2023). Adaptation of Ocular Opponency Neurons Mediates Attention-induced Ocular Dominance Plasticity. Neuroscience Bulletin,Online.

Song F#, Wang J#, Bao M*.(2023). From imbalanced visual inputs to imbalanced visual attention: Seeking the neural mechanisms for short-term ocular dominance plasticity. Advances in Psychological Science,31(10), 1873-1882.doi:10.3724/SP.J.1042.2023.01873

Du X, Liu L, Dong X, Bao M*.(2023). Effects of altered-reality training on interocular disinhibition in amblyopia. Annals of the New York Academy of Sciences,1522(1): 126-138. doi: 10.1111/nyas.14969.

Song F, Lyu L*, Zhao J, Bao M*. (2023). The role of eye-specific attention in ocular dominance plasticity. Cerebral Cortex,33(4): 983-996. doi: 10.1093/cercor/bhac116.

Zhao J, Bao M*. (2022). A method for studying unconscious motion processing based on the camouflage principle. Acta Psychologica Sinica,54(7):725-735.doi:10.3724/SP.J.1041.2022.001. [pdf]

He X, Bai J, Jiang Y, Zhang T, Bao M*. (2022). Beyond Motion Extrapolation: Vestibular Contribution to Head-Rotation-Induced Flash-Lag Effects. Psychological Research, 86(7): 2083-2098. doi: 10.1007/s00426-021-01638-8. [pdf]

Dong X, Zhang M, Dong B, Jiang Y, Bao M*. (2022). Reward produces learning of a consciously inaccessible feature. British Journal of Psychology, 113:49-67. [pdf]

He X, Liu W, Qin N, Lyu L, Dong X, Bao M*. (2021). Performance-Dependent Reward Hurts Performance: The Non-monotonic Attentional Load Modulation on Task-irrelevant Distractor Processing. Psychophysiology ,58(12):e13920. [pdf]

Dong X*, Bao M*. (2021). The growing sensory suppression on visual perception during head-rotation preparation. Psych Journal,10(4): 499-507. [pdf]

Han Q, Wang Y, Jiang Y*, Bao M*. (2021). The relevance to social interaction modulates bistable biological-motion perception. Cognition,209:104584. [pdf]

Dong X*, Du X, Bao M. (2020). Repeated contrast adaptation does not cause habituation of the adapter. Frontiers in Human Neuroscience, 14:589634. [pdf]

Lyu L, He S, Jiang Y, Engel SA, Bao M*. (2020). Natural-scene-based Steady-state Visual Evoked Potentials Reveal Effects of Short-term Monocular Deprivation. Neuroscience, 435: 10-21. [pdf]

Bai J#, He X#, Jiang Y, Zhang T, Bao M*. (2019). Rotating One's Head Modulates the Perceived Velocity of Motion Aftereffect. Multisensory Research, [Epub ahead of print] doi: 10.1163/22134808-20191477. [pdf]

Bao M*, Engel SA. (2019). Augmented reality as a tool for studying visual plasticity:2009 to 2018. Current Directions in Psychological Science, 28(6): 574-580. [pdf]

Dong X*, Bao M*. (2019). Direction selective habituation of motion adaptation. Journal of Vision, 19(4):6, 1C12. [pdf]

Bai J, Bao M*, Zhang T, Jiang Y. (2019). A virtual reality approach identifies flexible inhibition of motion aftereffects induced by head rotation. Behavior Research Methods, 51(1): 96-107. [pdf]

Mei G, Yuan Q, Liu G, Pan Y,Bao M*. (2018). Spontaneous recovery and time course of biological motion adaptation. Vision Research, 149: 40-46. [pdf]

Bao M*, Dong B, Liu L, Engel SA, Jiang Y. (2018). The best of both worlds: Adaptation during natural tasks produces long-lasting plasticity in perceptual ocular dominance. Psychological Science, 29(1): 14-33. [pdf]

Bao M, Huang C, Wang L, Zhang T, Jiang Y*. (2017). Visual information processing and its brain mechanism. Science & Technology Review, 35(19):15-20.

Bai J, Dong X, He S, Bao M*. (2017). Monocular deprivation of Fourier phase boosts the deprived eye's dominance during interocular competition but not interocular phase combination. Neuroscience, 352: 122-130. [pdf]

Dong X, Bai J, Bao M*. (2017). Robust size illusion produced by expanding and contracting flow fields. Vision Research, 133: 87-94. [pdf]

Dong B, Holm L, Bao M*. (2017). Cortical mechanisms for afterimage formation: evidence from interocular grouping. Scientific Reports, 7: 41101. [pdf]

Mei G, Dong X, Bao M*. (2017). The timescale of adaptation at early and mid-level stages of visual processing. Journal of Vision, 17(1):1, 1C7. [pdf]

Zhang M#*, Tu J#, Dong B, Chen C, Bao M*. (2017). Preliminary evidence for a role of the personality trait in visual perceptual learning. Neurobiology of Learning and Memory, 139: 22-27. (#co-first author). [pdf]

Dong X#, Gao Y#, Lv L, Bao M*. (2016). Habituation of visual adaptation. Scientific Reports, 6: 19152. [pdf]

Gao Y, Bao M. (2015). Visual adaptation and its neural mechanisms. Advances in Psychological Science,23(7):1142-50.

Mei G#, Dong X#, Dong B, Bao M*. (2015). Spontaneous recovery of effects of contrast adaptation without awareness. Frontiers in Psychology, 6: 1464. [pdf]

Haak KV*, Fast E, Bao M, Lee M, Engel SA*. (2014). Four days of visual contrast deprivation reveals limits of neuronal adaptation. Current Biology, 24(21): 2575-79. [pdf]

Dong X, Engel SA, Bao M*. (2014). The time course of contrast adaptation measured with a new method: Detection of ramped contrast. Perception, 43: 427-37. [pdf]

Bao M, Fast E, Mesik J, Engel SA*. (2013). Distinct mechanisms control contrast adaptation over different timescales. Journal of Vision, 13(10): 14, 1-11. [pdf]