Huck Beng Chew
Achieving Mechanistic Insights into Boron Nitride Nanotube-reinforced Metal Composites with Massively-Parallel Computations
(bbaf)Jan 2021 - Dec 2021
Exploiting Moiré Effects to Control Plasma-Patterning of Twisted Bilayer Graphene
(bawe)Jan 2019 - Dec 2019
Load Transfer Mechanisms of Boron Nitride Nanotube Reinforced Metal Composites
(badi)Dec 2017 - Dec 2018
Mechanics of Deformation in High Capacity Lithium-ion Batteries
(badq)May 2016 - Oct 2017
Mechanics of Deformation in High Capacity Lithium-Ion Batteries
(jqg)May 2015 - Apr 2016
2022
Y. Cui, and H.B. Chew (2022): Machine-Learning Prediction of Atomistic Stress Along Grain Boundaries, Acta Materialia, Elsevier BV, Vol 222, pp117387
Ning Li, Christopher M Dmuchowski, Yingchun Jiang, Chenglin Yi, Feilin Gou, Jia Deng, Changhong Ke, and Huck Beng Chew (2022): Sliding Energy Landscape Governs Interfacial Failure of Nanotube-Reinforced Ceramic Nanocomposites, Scripta Materialia, Elsevier BV, Vol 210, pp114413
2020
S. Bagchi, H. T. Johnson, and H. B. Chew (2020): Rotational stability of twisted bilayer graphene, Physical Review B, American Physical Society, Vol 101, Num 5, pp054109
2019
Yue Cui and Huck Beng Chew (2019): A simple numerical approach for reconstructing the atomic stresses at grain boundaries from quantum-mechanical calculations, Journal of Chemical Physics, AIP Publishing, Vol 150, Num 14, pp144702
Wenyang Qu, Soumendu Bagchi, Xiaoming Chen, Huck Beng Chew, and Changhong Ke (2019): Bending and interlayer shear moduli of ultrathin boron nitride nanosheet, Journal of Physics D: Applied Physics, IOP Publishing, Vol 52, Num 46, pp465301
Saurabh S. Sawant, Pooja Rao, Abhilash Harpale, Huck Beng Chew, and Deborah A. Levin (2019): Multi-scale thermal response modeling of an AVCOAT-like thermal protection material, International Journal of Heat and Mass Transfer, Elsevier, Vol 133, pp1176-1195
2018
Chenglin Yi, Soumendu Bagchi, Christopher M. Dmuchowski, Feilin Gou, Xiaoming Chen, Cheol Park, Huck Beng Chew, and Changhong Ke (2018): Direct Nanomechanical Characterization of Carbon Nanotubes - Titanium Interfaces, Carbon, Elsevier BV, Vol 132, pp548-555
Abhilash Harpale, Saurabh Sawant, Rakesh Kumar, Deborah Levin, and Huck Beng Chew (2018): Ablative thermal protection systems: Pyrolysis modeling by scale-bridging molecular dynamics, Carbon, Elsevier Ltd., Vol 130, pp315-324
Soumendu Bagchi, Abhilash Harpale, and Huck Beng Chew (2018): Interfacial Load Transfer Mechanisms in Carbon Nanotube-Polymer Nanocomposites, Proceedings of the Royal Society A: Mathematical, Physical and Engineering Science, The Royal Society, Vol 474, Num 2216, pp20170705
Chenglin Yi, Soumendu Bagchi, Feilin Gou, Christopher M. Dmuchowski, Cheol Park, Catharine C. Fay, Huck Beng Chew, and Changhong Ke (2018): Direct nanomechanical measurements of boron nitride nanotube—ceramic interfaces, Nanotechnology, IOP Publishing Ltd., Vol 30, Num 2, pp025706
Soumendu Bagchi, Changhong Ke, and Huck Beng Chew (2018): Oxidation effect on the shear strength of graphene on aluminum and titanium surfaces, Physical Review B, American Physical Society, Vol 98, Num 17, pp174106
2017
Saurabh S. Sawant, Abhilash Harpale, Revathi Jambunathan, Huck Beng Chew, and Deborah A. Levin (2017): High fidelity and multi-scale thermal response modeling of an Avcoat-like TPS, American Institute of Aeronautics and Astronautics, 55th AIAA Aerospace Sciences Meeting, Grapevine, Texas, U.S.A.
Abhilash Harpale and Huck Beng Chew (2017): Hydrogen-Plasma Patterning of Multilayer Graphene: Mechanisms and Modeling, Carbon, Elsevier BV, Vol 117, pp82--91
2016
Abhilash Harpale, Marco Panesi, and Huck Beng Chew (2016): Communication: Surface-to-Bulk Diffusion of Isolated Versus Interacting C Atoms in Ni(111) and Cu(111) Substrates: A First Principle Investigation, Journal of Chemical Physics, AIP Publishing, Vol 142, Num 6, pp061101
Abhilash Harpale, Marco Panesi, and Huck Beng Chew (2016): Plasma-Graphene Interaction and Its Effects on Nanoscale Patterning, Physical Review B, American Physical Society, Vol 93, Num 3, pp035416
Haoran Wang and Huck Beng Chew (2016): Molecular Dynamics Simulations of Plasticity and Cracking in Lithiated Silicon Electrodes, Extreme Mechanics Letters, Elsevier BV, Vol 9, Num Part 3, pp503-513
2015
Haoran Wang, Binyue Hou, Xueju Wang, Shuman Xia, and Huck Beng Chew (2015): Atomic-Scale Mechanisms of Sliding Along an Interdiffused Li-Si-Cu Interface, Nano Letters, American Chemical Society, Vol 15, Num 3, pp1716-1721
Haoran Wang, Xueju Wang, Shuman Xia, and Huck Beng Chew (2015): Brittle-to-Ductile Transition of Lithiated Silicon Electrodes: Crazing to Stable Nanopore Growth, Journal of Chemical Physics, AIP Publishing, Vol 143, Num 10, pp104703
Ruizhi Li and Huck Beng Chew (2015): Closed and Open-Ended Stacking Fault Tetrahedra Formation Along the Interfaces of Cu-Al Nanolayered Metals, Philosophical Magazine, Informa UK Limited, Vol 95, Num 25, pp2747-2763
Ruizhi Li and Huck Beng Chew (2015): Planar-to-Wavy Transition of Cu-Ag Nanolayered Metals: A Precursor Mechanism to Twinning, Philosophical Magazine, Informa UK Limited, Vol 95, Num 10, pp1029-1048
2019
Huck Beng Chew, Soumendu Bagchi (2019): Role of Interfaces on the Shear Strength and Bending Properties of van der Waals Two-Dimensional Materials, 2019 Blue Waters Annual Report, pp138-139
2018
Huck Beng Chew (2018): Interfacial Load Transfer Mechanisms in Carbon Nanotube-Polymer Nanocomposites, 2018 Blue Waters Annual Report, pp170-171
2017
Huck Beng Chew (2017): Scalable Nanopatterning of Graphene by Hydrogen-Plasma Etching, 2017 Blue Waters Annual Report, pp116-117
2016
Huck Beng Chew (2016): Nanoscale Mechanics of Deformation in High-Capacity Lithium-Ion Batteries, 2016 Blue Waters Annual Report, pp115-117
Huck Beng Chew: Utilizing Massively-Parallel Computations to Predict Nanopatterning of Graphene by Hydrogen-Plasma Etching
Blue Waters Symposium 2018, Jun 5, 2018
17 campus teams to accelerate their research with Blue Waters
Jun 10, 2015
Seventeen U of I research teams from a wide range of disciplines have been awarded computational and data resources on the sustained-petascale Blue Waters supercomputer at NCSA. “These diverse projects highlight the breadth of computational research at the University of Illinois,” said Athol Kemball, associate professor of Astronomy and chair of the Illinois allocation review committee. “Illinois has a tremendous pool of talented researchers in fields from political science to chemistry to engineering who can harness the power of Blue Waters to discover and innovate.”
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U of I, Great Lakes Consortium award Blue Waters resources to 18 research teams
Apr 10, 2014
Eighteen research teams from a wide range of disciplines have been awarded computational and data resources on the sustained-petascale Blue Waters supercomputer at the National Center for Supercomputing Applications (NCSA) at the University of Illinois at Urbana-Champaign. Blue Waters is one of the world’s most powerful supercomputers, capable of performing quadrillions of calculations every second and working with quadrillions of bytes of data. Its massive scale and balanced architecture enable scientists and engineers to tackle research challenges that could not be addressed with other computing systems.
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