Menghao Wu, Ph.D.

Affiliations: 
2011 Physics & Astronomy The University of Nebraska - Lincoln, Lincoln, NE 
Area:
Molecular Physics, Physical Chemistry, Nanoscience
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"Menghao Wu"
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Xiao Cheng Zeng grad student 2011 University of Nebraska - Lincoln (Chemistry Tree)
 (First-principles Studies on Physical and Chemical Properties of Nanostructures.)

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Publications

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Yang L, Li L, Yu ZM, et al. (2024) Two-Dimensional Topological Ferroelectric Metal with Giant Shift Current. Physical Review Letters. 133: 186801
Gao Y, Li S, Zeng XC, et al. (2023) Exploitation of mixed-valency chemistry for designing a monolayer with double ferroelectricity and triferroic couplings. Nanoscale. 15: 13567-13573
Xuan X, Wu M, Zhang Z, et al. (2021) A multiferroic vanadium phosphide monolayer with ferromagnetic half-metallicity and topological Dirac states. Nanoscale Horizons
Yang Q, Wu M, Zeng XC. (2020) Constructing Stable and Potentially High-Performance Hybrid Organic-Inorganic Perovskites with "Unstable" Cations. Research (Washington, D.C.). 2020: 1986576
Zhong T, Wu M. (2020) Fullerene-based 0D ferroelectrics/multiferroics for ultrahigh-density and ultrafast nonvolatile memories. Physical Chemistry Chemical Physics : Pccp
Tu Z, Wu M. (2020) Ultrahigh-strain ferroelasticity in two-dimensional honeycomb monolayers: from covalent to metallic bonding Science Bulletin. 65: 147-152
Li X, Li L, Wu M. (2020) Various polymorphs of group III–VI (GaSe, InSe, GaTe) monolayers with quasi-degenerate energies: facile phase transformations, high-strain plastic deformation, and ferroelastic switching Materials Today Physics. 15: 100229
Cai X, Ren Y, Wu M, et al. (2019) Strain-induced phase transition and giant piezoelectricity in monolayer tellurene. Nanoscale
Zhong T, Pan M, Gao G, et al. (2019) Sodium bismuth dichalcogenides: candidates for ferroelectric high-mobility semiconductors for multifunctional applications. Physical Chemistry Chemical Physics : Pccp
Yang Q, Zhong T, Tu Z, et al. (2019) Design of Single-Molecule Multiferroics for Efficient Ultrahigh-Density Nonvolatile Memories. Advanced Science (Weinheim, Baden-Wurttemberg, Germany). 6: 1801572
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