Browsing School of Engineering and Materials Science by Author "Wang, M"
Now showing items 1-14 of 14
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Bioinspired and Bioderived Aqueous Electrocatalysis
Barrio, J; Pedersen, A; Favero, S; Luo, H; Wang, M; Sarma, SC; Feng, J; Ngoc, LTT; Kellner, S; Li, AY (2022) -
Fluid-structure Interaction of Flexible Submerged Vegetation Stems and Kinetic Turbine Blades
Wang, M; Avital, E; Bai, X; Ji, C; Xu, D; Williams, JJR; Munjiza, A (Springer (part of Springer Nature), 2019-12-13)A fluid-structure interaction (FSI) methodology is presented for simulating elastic bodies embedded and/or encapsulating viscous incompressible fluid. The fluid solver is based on finite volume and the large eddy simulation ... -
Folding and Fracture of Single-Crystal Graphene Grown on a Cu(111) Foil
Luo, D; Choe, M; Bizao, RA; Wang, M; Su, H; Huang, M; Jin, S; Li, Y; Kim, M; Pugno, NM (2022) -
Gradient Heating Epitaxial Growth Gives Well Lattice-Matched Mo2 C-Mo2 N Heterointerfaces that Boost Both Electrocatalytic Hydrogen Evolution and Water Vapor Splitting.
Zhang, Y; Guo, P; Guo, S; Xin, X; Wang, Y; Huang, W; Wang, M; Yang, B; Jorge Sobrido, A; Ghasemi, JB (2022-11-21)An optimized approach to producing lattice-matched heterointerfaces for electrocatalytic hydrogen evolution has not yet been reported. Herein, we present the synthesis of lattice-matched Mo2 C-Mo2 N heterostructures using ... -
Hydrogen-Bond Reinforced Superstructural Manganese Oxide As the Cathode for Ultra-Stable Aqueous Zinc Ion Batteries
Li, J; Luo, N; Kang, L; Zhao, F; Jiao, Y; Macdonald, TJ; Wang, M; Parkin, IP; Shearing, PR; Brett, DJL (Wiley-VCH Verlag, 2022-09-23)Layered manganese oxides adopting pre-accommodated cations have drawn tremendous interest for the application as cathodes in aqueous zinc-ion batteries (AZIBs) owing to their open 2D channels for fast ion-diffusion and ... -
An implicit Eulerian-Lagrangian model for flow-net interaction using immersed boundary method in OpenFOAM
Mi, S; Wang, M; Avital, EJ; Williams, JJR; Chatjigeorgiou, IK (2022) -
In situ photocatalytically enhanced thermogalvanic cells for electricity and hydrogen production.
Wang, Y; Zhang, Y; Xin, X; Yang, J; Wang, M; Wang, R; Guo, P; Huang, W; Sobrido, AJ; Wei, B (2023-07-21)High-performance thermogalvanic cells have the potential to convert thermal energy into electricity, but their effectiveness is limited by the low concentration difference of redox ions. We report an in situ photocatalytically ... -
L<sup>3</sup>F-TOUCH: A Wireless GelSight With Decoupled Tactile and Three-Axis Force Sensing
Li, W; Wang, M; Li, J; Su, Y; Jha, DK; Qian, X; Althoefer, K; Liu, H (2023-08-01)GelSight sensors that estimate contact geometry and force by reconstructing the deformation of their soft elastomer from images would yield poor force measurements when the elastomer deforms uniformly or reaches deformation ... -
Numerical modelling of a dual-rotor marine current turbine in a rectilinear tidal flow
Ai, K; Cui, J; Wang, M; Avital, E (Elsevier, 2020-02-17)In this study, numerical simulation is used to investigate a counter-rotating dual-rotor marine current turbine (MCT) that is aligned for a rectilinear tidal current. Results of power and thrust coefficients and the mean ... -
A Numerical Study on Suspended Sediment Transport in a Partially Vegetated Channel Flow
Wang, M; Avital, E; Chen, Q; Williams, J; Mi, S; Xie, Q (Elsevier, 2021-03)Turbulent structures generated by vegetation patches play a dominant role in the dispersion of suspended sediment, which in turn is of great significance for ecosystem cycling and river geomorphology development. High ... -
A numerical study on the influence of curvature ratio and vegetation density on a partially vegetated U-bend channel flow
Wang, M; Avital, E; Korakianitis, T; Williams, J; Ai, K (Elsevier, 2020-12-01)Aquatic vegetation dramatically shifts the main flow, secondary flow and turbulent structures in a meandering channel. In this study, hydrodynamics in a bending channel with a vegetation patch (VP) has been numerically ... -
A Numerical Study on the Influence of Riparian Vegetation Patch on the Transportation of Suspended Sediment in a U-Bend Channel Flow
Wang, M; Yu, Q; Xu, Y; Li, N; Wang, J; Cao, B; Wang, L; Avital, EJ (MDPI, 2024-05-07)Bend sections are ubiquitous in natural sandy river systems. This study employs Computational Fluid Dynamics–Discrete Phase Model (CFD-DPM) methodology to analyze particle transport dynamics in U-bend channel flows, focusing ... -
Stable Sodium-Metal Batteries in Carbonate Electrolytes Achieved by Bifunctional, Sustainable Separators with Tailored Alignment
Wang, J; Xu, Z; Zhang, Q; Song, X; Lu, X; Zhang, Z; Onyianta, AJ; Wang, M; Titirici, M-M; Eichhorn, SJ (2022) -
A Study on the Influence of Submergence Ratio on the Transport of Suspended Sediment in a Partially Vegetated Channel Flow
Wang, M; Mi, S; Avital, E; Li, N; Chen, Y; Williams, J (2023)