Publications

Google Scholar
Research Gate


Peer-reviewed publications

2024

35. A. Jangir, D. T. Ho, U. SchwingenschlöglOrigin and enhancement of the piezoelectricity in monolayer group IV monochalcogenides under strain and in the presence of vacanciesMaterials Advances, accepted [link]

34. M.-Q. Doan, V.-L. Nguyen, V.-T. Le, D. T. Ho, D. T. H. Hue, V.-H. Dinh & L. V. Lich, Enhanced Energy Absorption and Unusual Mechanical Behaviors of Continuously Graded Diamond-Shellular NanostructuresMetals and Materials International, accepted [link]

33.  C. T. Nguyen, D. T. Ho, S. Y. Kim, Coalescence-enhanced melting in the incipient stage of surface melting, Computational Materials Science 242,  113092 (2024) [link]



32. C. T. Nguyen, D. T. Ho, S. Y. Kim, Calculation of Melting Temperature Using Nonequilibrium Thermodynamic Integration Methods, Advanced Theory and Simulations 7, 2300588 (2024) [link]



31. C. T. Nguyen, D. T. Ho, S. Y. Kim, An Enhanced Sampling Approach for Computing the Free Energy of Solid Surface and Solid–Liquid Interface, Advanced Theory and Simulation 7, 2300538 (2024) [link]


2023
30. A. S. Voronin, D. T. Ho, Udo Schwingenschlögl, Functionalized Carbon Honeycomb Membranes for Reverse Osmosis Water Desalination, Advanced Materials and Interfaces 10, 2300250 (2023). [link]


29. D. T. Ho, T. P. N. Nguyen, A. Jangir, U. SchwingenschlöglGraphene foam membranes with tunable pore size for next-generation reverse osmosis water desalination, Nanoscale Horizons 8, 1082-1089 (2023). [link]




28. V. H. Ho, D. T. Ho, W. H. Shin, S. Y. Kim, Auxeticity of monolayer, few-layer, vdW heterostructure and ribbon penta-graphenePhysical Chemistry Chemical Physics 25, 4528-4541 (2023) [link]


27. Z. Zhao, J. Lai, D. T. Ho, Yongjiu Lei, Jian Yin, Long Chen, Udo Schwingenschlögl, and Husam N. Alshareef, A novel “water-in-ionic liquid” electrolyte for Zn metal batteriesACS Energy Letters 8, 608–618 (2023) [link] 

2022
26. A. Jangir, D. T. Ho, U. SchwingenschlöglTuneable Poisson’s ratio of monolayer GeS and Ge2SSeExtreme Mechanics Letters 56, 101838 (2022) [link]


25. A. Jangir, D. T. Ho, U. SchwingenschlöglComment on “Electrical Switch of Poisson’s Ratio in IV–VI Monolayers via Pseudophase Transitions”, The Journal of Physical Chemistry Letters 13, 3609–3610 (2022) [link]

24. D. Lu, Z. Zhou, Z. Wang, D. T. Ho, G. Sheng, L. Chen, Y. Zhao, X. Li, L. Cao, U. Schwingenschlögl, J. Ma, Z. Lai, An Ultrahigh-Flux Nanoporous Graphene Membrane for Sustainable Seawater Desalination using Low-Grade Heat, Advanced Materials 34, 2109718 (2022) [link]


23. V. H. Ho, D. T. Ho, C. T. Nguyen, S. Y. KimNegative out-of-plane Poisson's ratio of bilayer graphaneNanotechnology 33, 255705 (2022) [link]


2021
22. D. T. Ho, U. SchwingenschlöglDesigning graphene origami structures with a giant isotropic negative coefficient of thermal expansionExtreme Mechanics Letters 47, 101357 (2021) [link]

21. H. Kim, D. T. Ho, and S. Y. Kim, Fracture behavior transition in (001) cracked metal nanoplate induced by the surface effectThe Journal of Physical Chemistry C 125, 42774283 (2021) [link]

2020
20. D. T. Ho, S. Y. Kim, and  U. Schwingenschlögl, Graphene origami structures with superflexibility and highly tunable auxeticityPhysical Review B 102, 174106 (2020) [link]

19. D. T. Ho, H. S. Park, S. Y. Kim, and  U. Schwingenschlögl, Graphene origami with highly tunable coefficient of thermal expansionACS Nano  14, 8969–8974 (2020). [link]


18. V. H. Ho, D. T. Ho, and S. Y. Kim, The Effect of Single Vacancy Defects on Graphene NanoresonatorsMultiscale Science and Engineering 2, 1-6 (2020) [link]

17. D. T. Ho, V. H. Ho, V. Babar, S. Y. Kim, and  U. Schwingenschlögl, Complex three-dimensional graphene structures driven by surface functionalization, Nanoscale 12, 10172-10179 (2020). [link]

16. D. T. Ho, S. Kim, S.-Y. Kwon, S. Y. Kim, Ideal strength of nanoscale materials induced by elastic instabilityMechanics of Materials 11, 103241 (2020). [link]

2019
15. C. T. Nguyen, D. T. Ho †, S. T. Choi, D.M. Chun, S.Y. Kim, Pattern transformation induced by elastic instability of metallic porous structuresComputational Materials Science 157, 17-24 (2019) (†: same contribution). [link]

14. D. T.  Ho†, C. T. Nguyen, S. Y. Kwon, S. Y. Kim, Auxeticity in metals and periodic metallic porous structures induced by elastic instabilitiesPhysica Status Solidi B 256, 1800122 (2019) (†: same contribution). [link]

2018
13. D. T. Ho, H. S. Park, and S. Y. Kim, Intrinsic rippling enhances static non-reciprocity in graphene metamaterialsNanoscale 10, 1207-1214 (2018). [link]

2017
12. D. T. Ho †, V. H. Ho†, H. S. Park, and S. Y. Kim, Negative in-plane Poisson’s ratio for single layer black phophorousPhysica Status Solidi B 254, 1700285 (2017) (†: same contribution). [link]

11. D. T. Ho, S.-Y. Kwon, H. S. Park, and S. Y. Kim, Metal nanoplate: Smaller is weaker due to failure by elastic instabilityPhysical Review B 96, 184103 (2017). [link]


10. D. T. Ho, H. S. Park, S.-Y. Kwon, and S. Y. Kim, Negative thermal expansion of ultra-thin metal nanowires: A Computational Study, Nano Letters 17, 5113-5118 (2017). [link]

2016
9. D. T. Ho, S.-Y. Kwon and S. Y. Kim. Metal [100] nanowires with negative Poisson’s ratio, Nature Scientific Reports 6, 27560 (2016). [link]

 8. D. T. Ho, S-D. Park, S.-Y. Kwon, T.-S. Han and S. Y. Kim. Negative Poisson’s ratio in cubic bulk materials along principal directions, Physica Status Solidi B 253, 1288 (2016). [link]

7. S. Kim, D. T. Ho, K. W. Kang, and S. Y. Kim, Phonon scattering during dislocation motion inducing stress-drop in cubic metals, Acta Materialia 115, 143-154 (2016). [link]


6. V. H. Ho, D. T. Ho, S.-Y. Kwon, and S. Y. Kim, Negative Poisson’s ratio in periodic porous graphene structures, Physica Status Solidi B 253, 1303 (2016). [link]

2015
5. D. T. Ho, H. K. Kim, S.-Y. Kwon and S. Y. Kim. Auxeticity of face-centered cubic metal (001) nanoplates, Physica Status Solidi B 252, 1492 (2015). [link]

 4. D. T. Ho, S.-D. Park, S.-Y. Kwon and S. Y. Kim. The effect of transverse loading on the ideal tensile strength of face-centered-cubic materials, Europhysics Letters 111, 26005 (2015). [link]


3. D. T. Ho, Y. T. Im, S.-Y. Kwon, Y. Y. Earmme, and S. Y. Kim. Mechanical failure mode of metal (001) nanowires: Global deformation versus local deformationNature Scientific Reports 5, 11050 (2015). [link]


2014
2. D. T. Ho, S.-D. Park, H. S. Lee, S.-Y. Kwon, and S. Y. Kim. Strong correlation between surface stress and mechanical strain in Cu, Ag, and Au, Europhysics Letters 106, 36001 (2014). [link]

1. D. T. Ho, S.-D. Park, S.-Y. Kwon, K.-B. Park and S. Y. Kim, Negative Poisson’s ratio in metal nanoplates, Nature Communication 5, 3255 (2014). [link]









Publications

Google Scholar
Research Gate


Peer-reviewed publications

2024

35. A. Jangir, D. T. Ho, U. SchwingenschlöglOrigin and enhancement of the piezoelectricity in monolayer group IV monochalcogenides under strain and in the presence of vacanciesMaterials Advances, accepted [link]

34. M.-Q. Doan, V.-L. Nguyen, V.-T. Le, D. T. Ho, D. T. H. Hue, V.-H. Dinh & L. V. Lich, Enhanced Energy Absorption and Unusual Mechanical Behaviors of Continuously Graded Diamond-Shellular NanostructuresMetals and Materials International, accepted [link]

33.  C. T. Nguyen, D. T. Ho, S. Y. Kim, Coalescence-enhanced melting in the incipient stage of surface melting, Computational Materials Science 242,  113092 (2024) [link]



32. C. T. Nguyen, D. T. Ho, S. Y. Kim, Calculation of Melting Temperature Using Nonequilibrium Thermodynamic Integration Methods, Advanced Theory and Simulations 7, 2300588 (2024) [link]



31. C. T. Nguyen, D. T. Ho, S. Y. Kim, An Enhanced Sampling Approach for Computing the Free Energy of Solid Surface and Solid–Liquid Interface, Advanced Theory and Simulation 7, 2300538 (2024) [link]


2023
30. A. S. Voronin, D. T. Ho, Udo Schwingenschlögl, Functionalized Carbon Honeycomb Membranes for Reverse Osmosis Water Desalination, Advanced Materials and Interfaces 10, 2300250 (2023). [link]


29. D. T. Ho, T. P. N. Nguyen, A. Jangir, U. SchwingenschlöglGraphene foam membranes with tunable pore size for next-generation reverse osmosis water desalination, Nanoscale Horizons 8, 1082-1089 (2023). [link]




28. V. H. Ho, D. T. Ho, W. H. Shin, S. Y. Kim, Auxeticity of monolayer, few-layer, vdW heterostructure and ribbon penta-graphenePhysical Chemistry Chemical Physics 25, 4528-4541 (2023) [link]


27. Z. Zhao, J. Lai, D. T. Ho, Yongjiu Lei, Jian Yin, Long Chen, Udo Schwingenschlögl, and Husam N. Alshareef, A novel “water-in-ionic liquid” electrolyte for Zn metal batteriesACS Energy Letters 8, 608–618 (2023) [link] 

2022
26. A. Jangir, D. T. Ho, U. SchwingenschlöglTuneable Poisson’s ratio of monolayer GeS and Ge2SSeExtreme Mechanics Letters 56, 101838 (2022) [link]


25. A. Jangir, D. T. Ho, U. SchwingenschlöglComment on “Electrical Switch of Poisson’s Ratio in IV–VI Monolayers via Pseudophase Transitions”, The Journal of Physical Chemistry Letters 13, 3609–3610 (2022) [link]

24. D. Lu, Z. Zhou, Z. Wang, D. T. Ho, G. Sheng, L. Chen, Y. Zhao, X. Li, L. Cao, U. Schwingenschlögl, J. Ma, Z. Lai, An Ultrahigh-Flux Nanoporous Graphene Membrane for Sustainable Seawater Desalination using Low-Grade Heat, Advanced Materials 34, 2109718 (2022) [link]


23. V. H. Ho, D. T. Ho, C. T. Nguyen, S. Y. KimNegative out-of-plane Poisson's ratio of bilayer graphaneNanotechnology 33, 255705 (2022) [link]


2021
22. D. T. Ho, U. SchwingenschlöglDesigning graphene origami structures with a giant isotropic negative coefficient of thermal expansionExtreme Mechanics Letters 47, 101357 (2021) [link]

21. H. Kim, D. T. Ho, and S. Y. Kim, Fracture behavior transition in (001) cracked metal nanoplate induced by the surface effectThe Journal of Physical Chemistry C 125, 42774283 (2021) [link]

2020
20. D. T. Ho, S. Y. Kim, and  U. Schwingenschlögl, Graphene origami structures with superflexibility and highly tunable auxeticityPhysical Review B 102, 174106 (2020) [link]

19. D. T. Ho, H. S. Park, S. Y. Kim, and  U. Schwingenschlögl, Graphene origami with highly tunable coefficient of thermal expansionACS Nano  14, 8969–8974 (2020). [link]


18. V. H. Ho, D. T. Ho, and S. Y. Kim, The Effect of Single Vacancy Defects on Graphene NanoresonatorsMultiscale Science and Engineering 2, 1-6 (2020) [link]

17. D. T. Ho, V. H. Ho, V. Babar, S. Y. Kim, and  U. Schwingenschlögl, Complex three-dimensional graphene structures driven by surface functionalization, Nanoscale 12, 10172-10179 (2020). [link]

16. D. T. Ho, S. Kim, S.-Y. Kwon, S. Y. Kim, Ideal strength of nanoscale materials induced by elastic instabilityMechanics of Materials 11, 103241 (2020). [link]

2019
15. C. T. Nguyen, D. T. Ho †, S. T. Choi, D.M. Chun, S.Y. Kim, Pattern transformation induced by elastic instability of metallic porous structuresComputational Materials Science 157, 17-24 (2019) (†: same contribution). [link]

14. D. T.  Ho†, C. T. Nguyen, S. Y. Kwon, S. Y. Kim, Auxeticity in metals and periodic metallic porous structures induced by elastic instabilitiesPhysica Status Solidi B 256, 1800122 (2019) (†: same contribution). [link]

2018
13. D. T. Ho, H. S. Park, and S. Y. Kim, Intrinsic rippling enhances static non-reciprocity in graphene metamaterialsNanoscale 10, 1207-1214 (2018). [link]

2017
12. D. T. Ho †, V. H. Ho†, H. S. Park, and S. Y. Kim, Negative in-plane Poisson’s ratio for single layer black phophorousPhysica Status Solidi B 254, 1700285 (2017) (†: same contribution). [link]

11. D. T. Ho, S.-Y. Kwon, H. S. Park, and S. Y. Kim, Metal nanoplate: Smaller is weaker due to failure by elastic instabilityPhysical Review B 96, 184103 (2017). [link]


10. D. T. Ho, H. S. Park, S.-Y. Kwon, and S. Y. Kim, Negative thermal expansion of ultra-thin metal nanowires: A Computational Study, Nano Letters 17, 5113-5118 (2017). [link]

2016
9. D. T. Ho, S.-Y. Kwon and S. Y. Kim. Metal [100] nanowires with negative Poisson’s ratio, Nature Scientific Reports 6, 27560 (2016). [link]

 8. D. T. Ho, S-D. Park, S.-Y. Kwon, T.-S. Han and S. Y. Kim. Negative Poisson’s ratio in cubic bulk materials along principal directions, Physica Status Solidi B 253, 1288 (2016). [link]

7. S. Kim, D. T. Ho, K. W. Kang, and S. Y. Kim, Phonon scattering during dislocation motion inducing stress-drop in cubic metals, Acta Materialia 115, 143-154 (2016). [link]


6. V. H. Ho, D. T. Ho, S.-Y. Kwon, and S. Y. Kim, Negative Poisson’s ratio in periodic porous graphene structures, Physica Status Solidi B 253, 1303 (2016). [link]

2015
5. D. T. Ho, H. K. Kim, S.-Y. Kwon and S. Y. Kim. Auxeticity of face-centered cubic metal (001) nanoplates, Physica Status Solidi B 252, 1492 (2015). [link]

 4. D. T. Ho, S.-D. Park, S.-Y. Kwon and S. Y. Kim. The effect of transverse loading on the ideal tensile strength of face-centered-cubic materials, Europhysics Letters 111, 26005 (2015). [link]


3. D. T. Ho, Y. T. Im, S.-Y. Kwon, Y. Y. Earmme, and S. Y. Kim. Mechanical failure mode of metal (001) nanowires: Global deformation versus local deformationNature Scientific Reports 5, 11050 (2015). [link]


2014
2. D. T. Ho, S.-D. Park, H. S. Lee, S.-Y. Kwon, and S. Y. Kim. Strong correlation between surface stress and mechanical strain in Cu, Ag, and Au, Europhysics Letters 106, 36001 (2014). [link]

1. D. T. Ho, S.-D. Park, S.-Y. Kwon, K.-B. Park and S. Y. Kim, Negative Poisson’s ratio in metal nanoplates, Nature Communication 5, 3255 (2014). [link]









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