2017 Ph.D., Applied Mathematics, Brown University, USA
2011 B.E., Polymer Science and Engineering, Zhejiang University, China


Invited Talk

Conference Presetations



Professional Services


[1] Tang, Y.H., Zhang, D. & Karniadakis, G.E. An atomistic fingerprint algorithm for learning ab initio molecular force fields. The Journal of Chemical Physics, 148(3):034101, 2018.
[2] Li, Z., Bian, X., Tang, Y.H. & Karniadakis, G.E. A dissipative particle dynamics method for arbitrarily complex geometries. Journal of Computational Physics, 355:534-547, 2018.
[3] Li, H., Chang, H.Y., Yang, J., Lu, L., Tang, Y.H. & Lykotrafitis, G. Modeling biomembranes and red blood cells by coarse-grained particle methods. Applied Mathematics and Mechanics, 39(1):3-20, 2018.
[4] Tang, Y.H., Lu, L., Grinberg, L., Li, H., Sachdeva, V., Evangelinos, C. & Karniadakis, G.E. OpenRBC: A Fast Simulator of Red Blood Cells at Protein Resolution. Biophysical Journal, 112(10):2030-2037, 2017.
[5] Blumers, A.L., Tang, Y.H., Li, Z., Li, X. & Karniadakis, G.E. GPU-accelerated red blood cells simulations with transport dissipative particle dynamics. Computer Physics Communications, 217:171-179, 2017.
[6] Li, Z., Bian, X., Tang, Y.H. & Karniadakis, G.E. A dissipative particle dynamics method for arbitrarily complex geometries. arXiv preprint arXiv:1612.08761, 2016.
[7] Tang, Y.H., Li, Z., Li, X., Deng, M. & Karniadakis, G.E. Non-Equilibrium Dynamics of Vesicles and Micelles by Self-Assembly of Block Copolymers with Double Thermoresponsivity. Macromolecules, 49(7):2895-2903, 2016.
[8] Bian, X., Deng, M., Tang, Y.H. & Karniadakis, G.E. Analysis of hydrodynamic fluctuations in heterogeneous adjacent multidomains in shear flow. Physical Review E, 93(3):033312, 2016.
[9] He, F., Li, Y., Tang, Y.H., Ma, J. & Zhu, H. Identifying micro-inversions using high-throughput sequencing reads. BMC genomics, 17(1):141, 2016.
[10] Li, X., Du, E., Lei, H., Tang, Y.H., Dao, M., Suresh, S. & Karniadakis, G.E. Patient-specific blood rheology in sickle-cell anaemia. Interface focus, 6(1):20150065, 2016.
[11] Rossinelli, D., Tang, Y.H., Lykov, K., Alexeev, D., Bernaschi, M., Hadjidoukas, P., Bisson, M., Joubert, W., Conti, C., Karniadakis, G. & thers, . The in-silico lab-on-a-chip: petascale and high-throughput simulations of microfluidics at cell resolution. In Proceedings of the International Conference for High Performance Computing, Networking, Storage and Analysis, 2015.
[12] Tang, Y.H., Kudo, S., Bian, X., Li, Z. & Karniadakis, G.E. Multiscale Universal Interface: A concurrent framework for coupling heterogeneous solvers. Journal of Computational Physics, 297:13-31, 2015.
[13] Li, Z., Tang, Y.H., Li, X. & Karniadakis, G.E. Mesoscale modeling of phase transition dynamics of thermoresponsive polymers. Chemical Communications, 51(55):11038-11040, 2015.
[14] Tang, Y.H. & Karniadakis, G.E. Accelerating dissipative particle dynamics simulations on GPUs: Algorithms, numerics and applications. Computer Physics Communications, 185(11):2809-2822, 2014.
[15] Li, X., Tang, Y.H., Liang, H. & Karniadakis, G.E. Large-scale dissipative particle dynamics simulations of self-assembled amphiphilic systems. Chemical Communications, 50(61):8306-8308, 2014.
[16] Li, Z., Tang, Y.H., Lei, H., Caswell, B. & Karniadakis, G.E. Energy-conserving dissipative particle dynamics with temperature-dependent properties. Journal of Computational Physics, 265:113-127, 2014.