Publications
Chi, S.Y., Chua, E.F., Kieschnick, D.W., & Rabin L.A. (2021). Retrospective metamemory monitoring of semantic memory in community-dwelling older adults with subjective cognitive decline and mild cognitive impairment. Neuropsychological Rehabilitation, 32: 429-463. link
Chi, S.Y., Chua, E.F., Kieschnick, D.W., & Rabin L.A. (2021). Prospective metamemory monitoring of episodic visual memory in community-dwelling older adults with subjective cognitive decline and mild cognitive impairment. Archives of Clinical Neuropsychology, 36: 1404-1425. link
Gaynor, A.M. & Chua, E.F. (2019). Transcranial direct current stimulation over the prefrontal cortex alters encoding and judgments of learning based on fluency. Journal of Cognitive Neuroscience, 31: 1710-1725. link
Weintraub-Brevda, R.R. & Chua, E.F.(2019). Transcranial direct current stimulation over the right and left VLPFC leads to differential effects on working and episodic memory. Brain & Cognition, 132: 98-107. link
Weintraub-Brevda, R.R. & Chua, E.F.(2018). The role of the ventrolateral prefrontal cortex in emotional enhancement of memory: a TMS study Cognitive Neuroscience, 9: 116-126. link
Chua, E.F., Ahmed, R., & Garcia, S.M. (2017). Effects of HD-tDCS on memory and metamemory for general knowledge questions that vary by difficulty. Brain Stimulation, 10: 231-241. link
Pergolizzi, D. & Chua, E.F. (2017). Increased contextual cue utilization with tDCS over the prefrontal cortex during a recognition task. Brain Research, 1655: 1-9. link
Gaynor, A.M. & Chua, E.F. (2017). TDCS over the prefrontal cortex alters objective but not subjective encoding. Cognitive Neuroscience, 8: 156-161. link
Chua, E.F. & Bliss-Moreau E. (2016). Knowing your heart and your mind: The relationships between metamemory and interoception. Consciousness & Cognition, 45: 146-158. link
Pergolizzi, D. & Chua, E.F. (2016). Transcranial direct current stimulation over the parietal cortex alters bias in item and source memory tasks. Brain & Cognition, 108: 56-65. link
Chua, E.F. & Ahmed, R. (2016). Electrical stimulation of the prefrontal cortex improves memory monitoring. Neuropsychologia, 85: 74-79. link
Chua, E.F. & Solinger, L.A. (2015). Building metamemorial knowledge over time: Insights from eye tracking about the bases of feeling-of-knowing and confidence judgments. Frontiers in Psychology, 6. 1206. link
Pergolizzi, D. & Chua, E.F. (2015). Transcranial direct current stimulation (tDCS) of the parietal cortex leads to increased false recognition. Neuropsychologia, 66: 88-98. link
Chua, E.F., Pergolizzi, D., & Weintraub, R.R. (2014). The cognitive neuroscience of metamemory monitoring: Understanding metamemory processes, subjective levels expressed, and metacognitive accuracy. In: S. Fleming & C. Frith (Eds.), The Cognitive Neuroscience of Metacognition (pp. 267-291). Springer Berlin Heidelberg. link
Chua, E.F. (2012). Evaluating confidence in our memories: Results and implications from neuroimaging and eye movement monitoring studies of metamemory. In L. Nadel and W. Sinnott-Armstrong (Eds.), Memory and Law. New York, NY: Oxford University Press. link
Chua, E.F., Hannula, D.E., & Ranganath C. (2012). Distinguishing highly confident accurate and inaccurate memory: Insights from eye movements about relevant and irrelevant influences on memory confidence. Memory, 20(1), 48-62. link
Aminoff, E.M., Balslev, D. Borroni, P., Bryan, R.E., Chua, E.F., Cloutier, J., Cross, E.S., Drew, T., Funk, C.M., Gil-da-Costa, R., Guerin, S.A., Hall, J.L., Jordan, K.E., Landau, A.N., Molnar-Szakacs, I., Montaser-Kouhsari, L., Olofsson, J.K., Quadflieg, S., Somerville, L.H., Sy, J.L., Uddin, L.Q., &Yamada, M. (2009). The landscape of cognitive neuroscience: Challenges, rewards, and new perspectives, pgs. 1255-1262. In M. Gazzaniga (Ed.), The Cognitive Neurosciences IV. Cambridge, MA: The MIT Press.link
Chua, E.F., Schacter, D.L., & Sperling, R.A. (2009). Neural correlates of metamemory: A comparison of feeling-of-knowing and retrospective confidence judgments. Journal of Cognitive Neuroscience, 21, 1751-65. link
Chua, E.F., Schacter, D.L., & Sperling, R.A. (2009). Neural basis for recognition confidence in younger and older adults. Psychology and Aging, 24, 139-53. link
Chua, E.F., Schacter, D.L., Rand-Giovannetti, E., & Sperling, R.A. (2007). Evidence for a specific role of the anterior hippocampal region in successful associative encoding. Hippocampus, 17, 1071-80. link
Celone, K.A., Calhoun, V.D., Dickerson, B.D., Atri, A., Chua, E.F., Miller, S., DePeau, K., Rentz, D.M., Selkoe, D., Blacker, D., Albert, M.S., & Sperling, R.A. (2006). Alterations in memory networks in mild cognitive impairment and Alzheimer’s disease: An independent component analysis. Journal of Neuroscience, 26, 10222-10231. link
Chua, E.F., Schacter, D.L., Rand-Giovannetti, E., & Sperling, R.A. (2006). Understanding metamemory: Neural correlates of the cognitive process and subjective level of confidence in recognition memory. Neuroimage, 29, 1150-1160. link
Rand-Giovannetti, E., Chua, E.F., Driscoll, A., Schacter, D.L., Albert, M.S., & Sperling, R.A. (2006). Hippocampal and neocortical activation during repetitive encoding in older persons. Neurobiology of Aging, 27, 173-82. link
Dickerson, B.C., Salat, D.H., Greve, D.N., Chua, E.F., Rand-Giovannetti, E., Rentz, D.M., Bertram, L., Mullin, K., Tanzi, R.E., Blacker, D., Albert, M.S., & Sperling, R.A. (2005). Increased hippocampal activation in mild cognitive impairment compared to normal aging and AD. Neurology, 65, 404-411. link
Kong, J., Wang, C., Kwong, K., Vangel, M., Chua, E.F., Gollub, R. (2005). The neural substrate of arithmetic operations and procedure complexity. Cognitive Brain Research, 22, 397-405.link
Chua, E.F., Rand-Giovannetti, E., Schacter, D.L., Albert, M.S., & Sperling R.A. (2004) Dissociating confidence and accuracy: fMRI shows origins of the subjective memory experience. Journal of Cognitive Neuroscience, 16, 1131-1142. link
Sperling, R.A., Chua, E.F., Cocchiarella, A.J., Rand-Giovannetti, E., Poldrack, R., Schacter, D.L., & Albert, M.S. (2003). Putting names to faces: Anterior hippocampal activation predicts successful subsequent memory. Neuroimage, 20, 1400-1410. link
Sperling, R.A, Bates, J.F., Chua, E.F., Cocchiarella, A.J., Rentz, D., Rosen, B., Schacter, D.L., & Albert, M.S. (2003). fMRI studies of associative encoding in young and elderly controls and mild AD patients. Journal of Neurology, Neurosurgery, and Psychiatry, 74, 44-50. link