page-template-default,page,page-id-16555,bridge-core-2.3.3,qode-quick-links-1.0,ajax_fade,page_not_loaded,,qode-title-hidden,qode_grid_1300,footer_responsive_adv,qode-theme-ver-22.1,qode-theme-bridge,wpb-js-composer js-comp-ver-6.2.0,vc_responsive,elementor-default





  1. Ovchinnikov, I. V., Li, W., Sun, Y., Hudson, A. E., Meier, K., Schwartz, R. N. and Wang, K. L., “Criticality or Supersymmetry Breaking?”, Symmetry, 12(5), 805. (May 12, 2020)
  2. Wang, K. L., Wu, Y., Eckberg, C., Yin, G. and Pan, Q., “Topological quantum materials”, MRS Bulletin, 45(5), 373-379. (May 7, 2020)
  3. Tu, S., Ziman, T., Yu, G., Wan, C., Hu, J., Wu, H., … , Wang, K. L., Ansermet, J. -P., Maekawa, S. and Yu, H., “Record thermopower found in an IrMn-based spintronic stack”, Nature Communications, 11(1), 1-7. (Apr 24, 2020)
  4. Albagami, M., Alrasheed, A., Alharbi, M., Alhazmi, A., Wong, K., Qasem, H., Alodan, S., Alolaiyan, O., Wang, K. L. and Amer, M. R., “Anomalous Conductivity Switch Observed in Treated Hafnium Diselenide Transistors”, Advanced Electronic Materials, 6(5), 1901246. (Apr 08, 2020)
  5. Razavi, A., Wu, H., Shao, Q., Fang, C., Dai, B., Wong, K., Han, X., Yu, G. and Wang K. L. , “Deterministic Spin–Orbit Torque Switching by a Light-Metal Insertion”, Nano letters, 20(5),  3703-3709. (Mar 31, 2020)
  6. Lee, A., Jagannathan, R., Wu, D., and Wang, K. L. , “A 2-D Calibration Scheme for Resistive Nonvolatile Memories”, IEEE Transactions on Very Large Scale Integration (VLSI) Systems, 28(6),  1371 – 1377. (Mar 11, 2020)
  7. Che, X., Pan, Q., Vareskic, B., Zou, J., Pan, L., Zhang, P., Yin, G., Wu, H., Shao, Q., Deng, P. and Wang, K. L. , “Strongly Surface State Carrier‐Dependent Spin–Orbit Torque in Magnetic Topological Insulators”, Advanced Materials, 32(16),  1907661. (Feb 28, 2020)
  8. Wang, Z., Wu, H., Burr, G.W., Hwang, C.S., Wang, K.L., Xia, Q. and Yang, J.J., “Resistive switching materials for information processing”, Nature Reviews Materials, 1-23. (Jan 13, 2020)