Z
Zhiwei Wang
Researcher at Tongji University
Publications - 615
Citations - 21125
Zhiwei Wang is an academic researcher from Tongji University. The author has contributed to research in topics: Membrane & Chemistry. The author has an hindex of 61, co-authored 474 publications receiving 14633 citations. Previous affiliations of Zhiwei Wang include University of Waterloo & Nantong University.
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Conformal Complex Singlet Extension of the Standard Model: Scenario for Dark Matter and a Second Higgs Boson
TL;DR: In this paper, a conformal complex singlet extension of the Standard Model with a Higgs portal interaction is considered and the symmetry of the complex scalar can be either broken or unbroken.
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Recent advances in membrane biofilm reactor for micropollutants removal: Fundamentals, performance and microbial communities
TL;DR: In this article , a comprehensive review of the membrane biofilm reactor performance for MP removal based on literature database is presented and key information on the microbial communities that are of great significance for the removal performance is synthesized.
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Brain Map of Intrinsic Functional Flexibility in Anesthetized Monkeys and Awake Humans.
Dazhi Yin,Zhao Zhang,Zhiwei Wang,Kristina Zeljic,Qian Lv,Dan-Chao Cai,Yingwei Wang,Zheng Wang +7 more
TL;DR: The findings indicate that the heterogeneous architecture of intrinsic functional flexibility across cortex probably reflects an evolutionarily conserved aspect of functional brain organization, which persists across levels of cognitive processing (states of consciousness).
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Recent advances in membrane biofilm reactor for micropollutants removal: Fundamentals, performance and microbial communities.
TL;DR: In this article, a comprehensive review of the membrane biofilm reactor performance for MP removal based on literature database is presented, and key information on the microbial communities that are of great significance for the removal performance is synthesized.
Journal ArticleDOI
Dynamic Network Communication in the Human Functional Connectome Predicts Perceptual Variability in Visual Illusion.
TL;DR: A quantitative psychophysical measure of illusory rotary motion based on the Pinna-Brelstaff figure is constructed in 73 healthy volunteers and the neural circuit mechanisms underlying perceptual variation using functional magnetic resonance imaging are investigated.