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YuanTong Gu
Researcher at Queensland University of Technology
Publications - 597
Citations - 15277
YuanTong Gu is an academic researcher from Queensland University of Technology. The author has contributed to research in topics: Finite element method & Meshfree methods. The author has an hindex of 52, co-authored 550 publications receiving 12583 citations. Previous affiliations of YuanTong Gu include Nanjing Medical University & National University of Singapore.
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Strained graphitic carbon nitride for hydrogen purification
TL;DR: Using a combination of density functional theory (DFT) and molecular dynamic (MD) simulations, the authors demonstrate that graphitic carbon nitride (g-C3N4), a 2-dimensional nanomaterial, can effectively purify H2 from CO2 and CH4.
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Design methods of rhombic tensegrity structures
TL;DR: In this paper, the authors address the design methods of rhombic structures based on the idea that many tense-grity structures can be constructed by assembling one-bar elementary cells.
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Development of realistic food microstructure considering the structural heterogeneity of cells and intercellular space
TL;DR: A new method to build microstructure of the plant-based food materials with clear identification of cell and intercellular spaces with significantly better area distribution than that found in the literature.
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Simulation of plant cell shrinkage during drying – a SPH–DEM approach
TL;DR: In this article, a coupled mesh-free particle-based two-dimensional (2D) model was developed to simulate microscale deformations of plant cells during drying, which can be used as a building block for advanced tissue models which are highly applicable for product and process optimizations in Food Engineering.
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How severe acute respiratory syndrome coronavirus-2 aerosol propagates through the age-specific upper airways.
Mohammad S. Islam,Puchanee Larpruenrudee,Suvash C. Saha,O. Pourmehran,Akshoy Ranjan Paul,Tevfik Gemci,Richard Collins,Gunther Paul,YuanTong Gu +8 more
TL;DR: In this paper, the authors investigated SARS COVID-2 aerosol transport in age-specific airway systems using a highly asymmetric airway model and fluent solver (ANSYS 19.2).