{"id":17,"date":"2019-01-30T07:49:42","date_gmt":"2019-01-30T07:49:42","guid":{"rendered":"http:\/\/faculty.washington.edu\/tingcao\/wordpress\/?page_id=17"},"modified":"2025-03-15T05:19:42","modified_gmt":"2025-03-15T05:19:42","slug":"publications","status":"publish","type":"page","link":"https:\/\/faculty.washington.edu\/tingcao\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Please refer to the PI’s google scholar page<\/a> for our latest research publications.<\/p>\n

<\/p>\n

Complete List:<\/p>\n\n\n

  1. E. Anderson, J. Cai, A. Reddy, H. Park, W. Holtzmann, K. Davis, T. Taniguchi, K. Watanabe, T. Smolenski, A. Imamo\u011flu, T. Cao, D. Xiao, L. Fu, W. Yao, and X. Xu, “Trion Sensing of a Zero-Field Composite Fermi Liquid,” Nature, 635, 590\u2013595 (2024).<\/li>
  2. T. Cao, “Accelerating Predictions of Electronic Transport and Superconductivity,” Nature Comp. Sci. 4, 561\u2013562 (2024).<\/li>
  3. X.-W. Zhang, K. Xie, E.-G. Wang, X.-Z. Li, and T. Cao, “Phonon-Mediated Exciton Relaxation in Two-Dimensional Semiconductors: Selection Rules and Relaxation Pathways,” J. Phys. Chem. Lett, 15, 7584-7590 (2024).<\/li>
  4. X.-W. Zhang, C. Wang, X. Liu, Y. Fan, T. Cao, and D. Xiao, “Polarization-Driven Band Topology Evolution in Twisted MoTe2<\/sub> and WSe2<\/sub>,” Nature Commun. 15, 4223 (2024). <\/li>
  5. L. Shen, D. Xiao, and T. Cao, “Proximity-Induced Exchange Interaction: A New Pathway for Quantum Sensing Using Spin Centers in Hexagonal Boron Nitride,” J. Phys. Chem. Lett, 15, 4359-4366 (2024).<\/li>
  6. X. Liu, Y. He, C. Wang, X.-W. Zhang, T. Cao, and D. Xiao, “Gate-Tunable Antiferromagnetic Chern Insulator in Twisted Bilayer Transition Metal Dichalcogenides,” Phys. Rev. Lett. 132, 146401 (2024).<\/li>
  7. C. Wang, X.-W. Zhang, X. Liu, X. Xu, Y. Ran, T. Cao, and D. Xiao, “Fractional Chern Insulator in Twisted Bilayer MoTe2<\/sub>,” Phys. Rev. Lett. 132, 03650 (2024).<\/li>
  8. K. Xie, X.-W. Zhang, D. Xiao, and T. Cao, “Engineering Magnetic Phases of Layered Antiferromagnets by Interfacial Charge Transfer,” ACS Nano 17, 22684\u201322690 (2023).<\/li>
  9. E. J. Telford, D. G. Chica, M. E. Ziebel, K. Xie, N. S. Manganaro, C.\u2010Y. Huang, J. Cox, A. H. Dismukes, X. Zhu, J. P. S. Walsh, T. Cao, C. R. Dean, and X. Roy, “Designing magnetic properties in CrSBr through hydrostatic pressure and ligand substitution,” Adv. Phys. Res. 2, 2300036 (2023).<\/li>
  10. H. Park, J. Cai, E. Anderson, Y. Zhang, J. Zhu, X. Liu, C. Wang, W. Holtzmann, C. Hu, Z. Liu, T. Taniguchi, K. Watanabe, J.-H. Chu, T. Cao, L. Fu, W. Yao, C.-Z. Chang, D. Cobden, D. Xiao, and X. Xu, “Observation of Fractionally Quantized Anomalous Hall Effect,” Nature 622, 74\u201379 (2023).<\/li>
  11. S. Regmi, A. P. Sakhya, T. Fernando, Y. Zhao, D. Jeff, M. Sprague, F. Gonzalez, I. B. Elius, M. I. Mondal, N. Valadez, D. Jarrett, A. Agosto, J. Yang, J.-H. Chu, S. I. Khondaker, X. Xu, T. Cao, and M. Neupane, “Observation of Flat and Weakly Dispersing Bands in the Van Der Waals Semiconductor Nb3<\/sub>Br8<\/sub> with Breathing Kagome Lattice,” Phys. Rev. B 108, L121404 (2023).<\/li>
  12. D. A Jeff, F. Gonzalez, K. Harrison, Y. Zhao, T. Fernando, S. Regmi, Z. Liu, H. R. Gutierrez, M. Neupane, J. Yang, J.-H. Chu, X. Xu, T. Cao, and S. I. Khondaker, “Raman study of layered breathing kagome lattice semiconductor Nb3<\/sub>Cl8<\/sub>,” 2D Materials 10, 045030 (2023). <\/li>
  13. D. Waters, E. Thompson, E. Arreguin-Martinez, M. Fujimoto, Y. Ren, T. Taniguchi, K. Watanabe, T. Cao, D. Xiao, and M. Yankowitz, “Mixed-Dimensional Moir\u00e9 Systems of Twisted Graphitic Thin Films,” Nature 620, 750\u2013755 (2023).<\/li>
  14. T. Fernando and T. Cao, “Quantized Interband Topological Index in Two-Dimensional Systems,” Phys. Rev. B 108, L081111 (2023).<\/li>
  15. Y. Ye, J. Qian, X.-W. Zhang, C. Wang, D. Xiao, and T. Cao, “Kekul\\’e Moir\\’e Superlattices,” Nano Lett. 23, 6536\u20136543 (2023). <\/li>
  16. J. Cai, E. Anderson, C. Wang, X. Zhang, X. Liu, W. Holtzmann, Y. Zhang, F. Fan, T. Taniguchi, K. Watanabe, Y. Ran, T. Cao, L. Fu, D. Xiao, W. Yao, and X. Xu, “Signatures of Fractional Quantum Anomalous Hall States in Twisted MoTe2<\/sub>,” Nature 622, 63\u201368 (2023).<\/li>
  17. H. Park, J. Zhu, X. Wang, Y. Wang, W. Holtzmann, T. Taniguchi, K. Watanabe, J. Yan, L. Fu, T. Cao, D. Xiao, D. R. Gamelin, H. Yu, W. Yao, and X. Xu, “Dipole Ladders with Large Hubbard Interaction in a Moir\u00e9 Exciton Lattice,” Nature Phys. 19, 1286\u20131292 (2023).<\/li>
  18. X.-W. Zhang, Y. Ren, C. Wang, T. Cao, and D. Xiao, “Gate-Tunable Phonon Magnetic Moment in Bilayer Graphene,” Phys. Rev. Lett. 130, 226302 (2023).<\/li>
  19. A. Ripin, R. Peng, X.-W. Zhang, S. Chakravarthi, M. He, X. Xu, K.-M. Fu, T. Cao, and M. Li, “Tunable Phononic Coupling in Excitonic Quantum Emitters,” Nature Nanotech. 18, 1020\u20131026 (2023). <\/li>
  20. X. Wang, X.-W. Zhang, J. Zhu, H. Park, Y. Wang, C. Wang, W. G. Holtzmann, T. Taniguchi, K. Watanabe, J. Yan, D. R. Gamelin, W. Yao, D. Xiao, T. Cao, and X. Xu, “Intercell Moir\u00e9 Exciton Complexes in Electron Lattices,” Nature Mater. 22, 599\u2013604 (2023). <\/li>
  21. S. Regmi, T. W. Fernando, Y. Zhao, A. P. Sakhya, G. Dhakal, I. B. Elius, H. Vazquez, J. Denlinger, J. Yang, J.-H. Chu, X. Xu, T. Cao, and M. Neupane, “Spectroscopic Evidence of Flat Bands in Breathing Kagome Semiconductor Nb3I8,” Communications Materials 3, 100 (2022). <\/li>
  22. G. M. Diederich, J. Cenker, Y. Ren, J. Fonseca, D. G. Chica, Y. J. Bae, X. Zhu, X. Roy, T. Cao, D. Xiao, and X. Xu, “Tunable Interaction between Excitons and Hybridized Magnons in a Layered Semiconductor,” Nature Nanotech. 18, 23\u201328 (2023)<\/li>
  23. R. A. Beck, S. Sun, X. Xu, D. R. Gamelin, T. Cao, and X. Li, “Understanding External Pressure Effects and Interlayer Orbital Exchange Pathways in the Two-Dimensional Magnet\u2500Chromium Triiodide,” J. Phys. Chem. C 126, 19327\u201319335 (2022). <\/li>
  24. Z. Sun, Y. Zhang, J. Qian, R. Qiao, X. Li, Z. Wang, C. Zheng, K. Liu, T. Cao, W.\u2010T. Liu, and S. Wu, “Compelling Evidence for the \u03b5\u2010Phase InSe Crystal by Oblique Incident Second Harmonic Generation,” Adv. Optical Mater. 10, 2201183 (2022).<\/li>
  25. X.-W. Zhang, T. Cao, “Ab Initio Calculations of Spin-Nonconserving Exciton-Phonon Scattering in Monolayer Transition Metal Dichalcogenides,” J. Phys.: Condens. Matter 34, 264002 (2022).<\/li>
  26. R. Peng, A. Ripin, Y. Ye, J. Zhu, C. Wu, S. Lee, H. Li, T. Taniguchi, K. Watanabe, T. Cao, X. Xu, and M. Li, “Long-Range Transport of 2D Excitons with Acoustic Waves,” Nature Commun. 13, 1334 (2022).<\/li>
  27. J. Cenker, S. Sivakumar, K. Xie, A. Miller, P. Thijssen, Z. Liu, A. Dismukes, J. Fonseca, E. Anderson, X.-Y. Zhu, X. Roy, D. Xiao, J.-H. Chu, T. Cao, and X. Xu, “Reversible Strain-Induced Magnetic Phase Transition in a Van der Waals Magnet,” Nature Nano. 17, 256\u2013261 (2022). <\/li>
  28. X.-W. Zhang, K. Xie, E.-G. Wang, T. Cao, and X.-Z. Li, “Phonon-Mediated Exciton Relaxation in Two-Dimensional Semiconductors,” arXiv:2110.08873 (2021). <\/li>
  29. T. Song, Q.-C. Sun, E. Anderson, C. Wang, J. Qian, T. Taniguchi, K. Watanabe, M. A. McGuire, R. St\u00f6hr, D. Xiao, T. Cao, J. Wrachtrup, and X. Xu, “Direct Visualization of Magnetic Domains and Moir\u00e9 Magnetism in Twisted 2D Magnets,” Science 374, 1140\u20131144 (2021).<\/li>
  30. D. J. Rizzo, J. Jiang, D. Joshi, G. Veber, C. Bronner, R. A. Durr, P. H. Jacobse, T. Cao, A. Kalayjian, H. Rodriguez, P. Butler, T. Chen, S. G. Louie, F. R. Fischer, and M. F. Crommie, “Rationally Designed Topological Quantum Dots in Bottom-Up Graphene Nanoribbons,” ACS Nano 15, 20633\u201320642 (2021).<\/li>
  31. N. Wilson, K. Lee, J. Cenker, K. Xie, A. Dismukes, E. Telford, J. Fonseca, S. Sivakumar, C. Dean, T. Cao, X. Roy, X. Xu, and X.-Y. Zhu, “Interlayer Electronic Coupling on Demand in a 2D Magnetic Semiconductor,” Nature Mater. 20, 1657\u20131662 (2021). <\/li>
  32. T. Song, E. Anderson, M. Tu, K. Seyler, T. Taniguchi, K. Watanabe, M. A. McGuire, X. Li, T. Cao, D. Xiao, W. Yao, and X. Xu, “Spin Photovoltaic Effect in Magnetic Van der Waals Heterostructures,” Science Advances 36, abg8094 (2021).<\/li>
  33. J. Yu, R. Giridharagopal, Y. Li, K. Xie, J. Li, T. Cao, X. Xu, and D. S. Ginger, “Imaging Graphene Moir\u00e9 Superlattices via Scanning Kelvin Probe Microscopy,” Nano Lett. 7, 3280\u20133286 (2021).<\/li>
  34. F. Zhao, T. Cao, and S. G. Louie, “Topological Phases in Graphene Nanoribbons Tuned by Electric Fields,” Phys. Rev. Lett. 127, 166401 (2021). <\/li>
  35. D. Luo, J. Tang, X. Shen, F. Ji, J. Yang, S. Weathersby, M. E. Kozina, Z. Chen, J. Xiao, Y. Ye, T. Cao, G. Zhang, X. Wang, A. M Lindenberg “Twist-Angle-Dependent Ultrafast Charge Transfer in MoS2-Graphene van der Waals Heterostructures,” Nano Lett. 21, 8051-8057 (2021).<\/li>
  36. M. K. L. Man, J. Mad\u00e9o, C. Sahoo, K. Xie, M. Campbell, V. Pareek, A. Karmakar, E. L. Wong, A. Al Mahboob, N. S. Chan, D. R. Bacon, X. Zhu, M. Abdelrasoul, X. Li, T. F. Heinz, F. H. da Jornada, T. Cao, and K. M. Dani, “Experimental Measurement of the Intrinsic Excitonic Wavefunction,” Science Advances 7, eabg0192 (2021). <\/li>
  37. Y. Guo, Y. Lin, K. Xie, B. Yuan, J. Zhu, P.-C. Shen, A.-Y. Lu, C. Su, E. Shi, K. Zhang, Z. Cai, J. Park, Q. Ji, J. Wang, X. Dai, X. Tian, S. Huang, L. Dou, J. Li, Y. Yu, J.-C. Idrobo, T. Cao, T. Palacios, and J. Kong, “Designing Artificial Two-Dimensional Landscapes via Room-Temperature Atomic-Layer Substitution,” PNAS 118,\u00a0e2106124118 (2021).<\/li>
  38. J. Mad\u00e9o, M. K. L. Man, C. Sahoo, M. Campbell, V. Pareek, E. L. Wong, A. Al Mahboob, N. S. Chan, A. Karmakar, B. M. K. Mariserla, X. Li, T. F. Heinz, T. Cao, and K. M. Dani, “Directly Visualizing the Momentum-Forbidden Dark Excitons and Their Dynamics in Atomically Thin Semiconductors,” Science 370, 1199-1204 (2020).<\/li>
  39. D. J. Rizzo, G. Veber, J. Jiang, R. McCurdy, T. Cao, C. Bronner, T. Chen, S. G. Louie, F. R. Fischer, and M. F. Crommie, “Inducing Metallicity in Graphene Nanoribbons via Zero-Mode Superlattices,” Science 369, 1597-1603 (2020).<\/li>
  40. S. Zhao, G. B. Barin, T. Cao, J. Overbeck, R. Darawish, T. Lyu, S. Drapcho, S. Wang, T. Dumslaff, A. Narita, M. Calame, K. Mu\u0308llen, S. G. Louie, P. Ruffieux, R. Fasel, and F. Wang, “Optical Imaging and Spectroscopy of Atomically Precise Armchair Graphene Nanoribbons,” Nano Lett. 20, 1124-1130 (2020).<\/li>
  41. K. Xie, X. Li, and T. Cao, “Theory and Ab Initio Calculation of Optically Excited States — Recent Advances in Two-Dimensional Materials,” Adv. Mater. 1904306 (2019).<\/li>
  42. Z. Li, T. Wang, C. Jin, Z. Lu, Z. Lian, Y. Meng, M. Blei, M. Gao, T. Taniguchi, K. Watanabe, T. Ren, T. Cao, S. Tongay, D. Smirnov, L. Zhang, and S.-F. Shi, “Momentum-Dark Intervalley Exciton in Monolayer Tungsten Diselenide Brightened via Chiral Phonon,” ACS Nano 13, 14107-14113 (2019).<\/li>
  43. T. Song, Z. Fei, M. Yankowitz, Z. Lin, Q. Jiang, K. Hwangbo, Q. Zhang, B. Sun, T. Taniguchi, K. Watanabe, M. A. McGuire, D. Graf, T. Cao, J.-H. Chu, D. H. Cobden, C. R. Dean, D. Xiao, and Xiaodong Xu, ” Switching 2D Magnetic States via Pressure Tuning of Layer Stacking,” Nature Mater. 18, 1298\u20131302 (2019)<\/li>
  44. Z. Sun, Y. Yi, T. Song, G. Clark, B. Huang, Y. Shan, S. Wu, D. Huang, C. Gao, Z. Chen, M. McGuire, T. Cao, D. Xiao, W.-T. Liu, W. Yao, X. Xu, and S. Wu, “Giant nonreciprocal second-harmonic generation from antiferromagnetic bilayer CrI3<\/sub>,” Nature 572, 497\u2013501 (2019).<\/li>
  45. Z. Li, T. Wang, C. Jin, Z. Lu, Z. Lian, Y. Meng, M. Blei, S. Gao, T. Taniguchi, K. Watanabe, T. Ren, S. Tongay, L. Yang, D. Smirnov, T. Cao, and S.-F. Shi, “Emerging Photoluminescence from the Dark-Exciton Phonon Replica in Monolayer WSe2<\/sub>,” Nature Commun. 10, 2469 (2019).<\/li>
  46. C.-K. Yong, M. I. B. Utama, C. S. Ong, T. Cao, E. C. Regan, J. Horng, Y. Shen, H. Cai, K. Watanabe, T. Taniguchi, S. Tongay, H. Deng, A. Zettl, S. G. Louie, and F. Wang “Valley-Dependent Exciton Fine Structure and Autler\u2013Townes Doublets from Berry Phases in Monolayer MoSe2<\/sub>,” Nature Mater. 18, 1065\u20131070 (2019)<\/li>
  47. M. Wu, Z. Li, T. Cao, and S. G. Louie, “Physical Origin of Giant Excitonic and Magneto-Optical Responses in Two-Dimensional Ferromagnetic Insulators,” Nature Commun. 10, 2371 (2019). <\/li>
  48. L. Guo, M. Wu, T. Cao, D. M. Monahan, Y.-H. Lee, S. G. Louie, and G. R. Fleming, “Exchange-Driven Intravalley Mixing of Excitons in Monolayer Transition Metal Dichalcogenides,” Nature Phys. 15,\u00a0228\u2013232\u00a0(2019).<\/li>
  49. Z. Li, T. Cao, and S. G. Louie, \u201cTwo-Dimensional Ferromagnetism in Few-Layer Van der Waals Crystals: Renormalized Spin-Wave Theory and Calculations,\u201d J. of Mag. and Mag. Mat. 463, 28-35 (2018).<\/li>
  50. D. J. Rizzo, G. Veber, T. Cao, C. Bronner, T. Chen, F. Zhao, H. Rodriguez, S. G. Louie, M. F. Crommie, and F. R. Fischer, \u201cTopological Band Engineering of Graphene Nanoribbons,\u201d Nature 560, 204\u2013208 (2018).<\/li>
  51. Y.-L. Lee, F. Zhao, T. Cao, J. Ihm, and S. G. Louie, “Topological Phases in Cove-Edged and Chevron Graphene Nanoribbons: Geometric Structures,\u00a0Z2<\/sub>\u00a0Invariants, and Junction States,” Nano Lett. 18, 7247-7253 (2018).<\/li>
  52. Z. Pedramrazi, C. Chen, F. Zhao, T. Cao, G. D. Nguyen, A. A. Omrani, H.-Z. Tsai, R. R. Cloke, T. Marangoni, D. J. Rizzo, T. Joshi, C. Bronner, W.-W. Choi, F. R. Fischer, S. G. Louie, and M. F. Crommie, \u201cConcentration Dependence of Dopant Electronic Structure in Bottom-up Graphene Nanoribbons,\u201d Nano Lett. 18, 3550-3556 (2018).<\/li>
  53. T. Cao, M. Wu, and S. G. Louie, “Unifying Optical Selection Rules for Excitons in Two Dimensions: Band Topology and Winding Numbers,” Phys. Rev. Lett. 120, 087402 (2018).<\/li>
  54. Y. Li, T. Wang, M. Wu, T. Cao, Y. Chen, R. Sankar, R. K. Ulaganathan, F. Chou, C. Wetzel, C.-Y. Xu, S. G. Louie, and S. Shi, \u201cUltrasensitive Tunability of the Direct Bandgap of Two-dimensional InSe Flakes via Strain Engineering.\u201d 2D Mater. 5, 021002 (2018).<\/li>
  55. X. Xu, C. Liu, Z. Sun, T. Cao, Z. Zhang, E. Wang, Z. Liu, K. Liu, \u201cInterfacial Engineering of Graphene Bandgap,\u201d Chem. Soc. Rev. 47, 3059-3099 (2018).<\/li>
  56. L. Ju, L. Wang, T. Cao, T. Taniguchi, K. Watanabe, S. G. Louie, F. Rana, J. Park, J. Hone, F. Wang, and P. L. McEuen, “Tunable Excitons in Bilayer Graphene,” Science 358, 907-910 (2017).<\/li>
  57. Z. Ji, H. Hong, J. Zhang, Q. Zhang, W. Huang, T. Cao, R. Qiao, C. Liu, J. Liang, C. Jin, L. Jiao, K. Shi, S. Meng, K. Liu, \u201cRobust Stacking-Independent Ultrafast Charge Transfer in MoS2<\/sub>\/WS2<\/sub> Bilayers\u201d, ACS Nano, 11, 12020\u201312026 (2017).<\/li>
  58. T. Cao, F. Zhao, and S. G. Louie, “Topological Phases in Graphene Nanoribbons: Junction States, Spin Centers, and Quantum Spin Chains,” Phys. Rev. Lett. 119, 076401 (2017).<\/li>
  59. X.-X. Zhang, T. Cao, Z. Lu, Y.-C. Lin, F. Zhang, Y. Wang, Z. Li, J. C. Hone, J. A. Robinson, D. Smirnov, S. G. Louie, and T. F. Heinz, \u201cMagnetic Brightening and Control of Dark Excitons in Monolayer WSe2<\/sub>,\u201d Nature Nanotech. 12, 883\u2013888 (2017).<\/li>
  60. C. Gong, L. Li, Z. Li, H. Ji, A. Stern, Y. Xia, T. Cao, W. Bao, C. Wang, Y. Wang, Z. Q. Qiu, R. J. Cava, S. G. Louie, J. Xia, and X. Zhang, \u201cDiscovery of Intrinsic Ferromagnetism in Two-Dimensional Van der Waals Crystals,\u201d Nature 546, 265\u2013269 (2017).<\/li>
  61. Z. Li, T. Cao, M. Wu, and S. G. Louie, \u201cGeneration of Anisotropic Massless Dirac Fermions and Asymmetric Klein Tunneling in Few-Layer Black Phosphorus Superlattices,\u201d Nano Lett. 17, 2280\u20132286 (2017).<\/li>
  62. H. Hong, C. Liu, T. Cao, C. Jin, S. Wang, F. Wang, and K. Liu, \u201cInterfacial Engineering of Van der Waals Coupled 2D Layered Materials,\u201d Adv. Mater. Interfaces 4, 1601054 (2017).<\/li>
  63. T. Cao, Z. Li, D. Y. Qiu, and S. G. Louie, \u201cGate Switchable Transport and Optical Anisotropy in 90\u00b0 Twisted Bilayer Black Phosphorus,\u201d Nano Lett. 16, 5542-5546 (2016).<\/li>
  64. G. D. Nguyen, F. M. Tom, T. Cao, Z. Pedramrazi, C. Chen, D. J. Rizzo, T. Joshi, C. Bronner, Y. C. Chen, M. Favaro, S. G. Louie, F. R. Fischer, and M. F. Crommie, “Bottom-up Synthesis of N=13 Sulfer-Doped Graphene Nanoribbons,” J. Phys. Chem. C 120, 2684-2687 (2016).<\/li>
  65. D. Y. Qiu, T. Cao, and S. G. Louie, “Nonanalyticity, Valley Quantum Phases, and Lightlike Exciton Dispersion in Monolayer Transition Metal Dichalcogenides: Theory and First-Principles Calculations,” Phys. Rev. Lett. 115, 176801 (2015).<\/li>
  66. R. R. Cloke, T. Marangoni, G. D. Nguyen, T. Joshi, D. J. Rizzo, C. Bronner, T. Cao, S. G. Louie, M. F. Crommie, and F. R. Fischer, “Site-Specific Substitutional Boron Doping of Semiconducting Armchair Graphene Nanoribbons,” J. Amer. Chem. Soc. 137, 8872-8875 (2015).<\/li>
  67. X. Zhou, J. Cheng, Y. Zhou, T. Cao, H. Hong, Z. Liao, S. Wu, H. Peng, K. Liu, and D. Yu. “Strong Second-harmonic Generation in Atomic Layered GaSe.” J. Amer. Chem. Soc. 137, 7994-7997 (2015).<\/li>
  68. T. Cao, Z. Li, and S. G. Louie, “Tunable Magnetism and Half-Metailicity in Hole-Doped Monolayer GaSe,” Phys. Rev. Lett. 114, 236602 (2015).<\/li>
  69. Y.-C. Chen, T. Cao, C. Chen, Z. Pedramrazi, D. Haberer, D. G. de Oteyza, F. R. Fischer, S. G. Louie and M. F. Crommie, “Molecular Bandgap Engineering of Bottom-up Synthesized Graphene Nanoribbon Heterojunctions,” Nature Nanotech. 10, 156-160 (2015).<\/li>
  70. L. Zhang, K. Liu, A. B. Wong, J. Kim, X. Hong, C. Liu, T. Cao, S. G. Louie, F. Wang, and P. Yang, “Three-dimensional Spirals of Atomic Layered MoS2<\/sub>,” Nano Lett. 14, 6418-6423 (2014).<\/li>
  71. Z. Ye, T. Cao, K. O’Brien, H. Y. Zhu, X. B. Yin, Y. Wang, S. G. Louie, and X. Zhang, “Probing Excitonic Dark States in Single-layer Tungsten Disulphide,” Nature 513, 214-218 (2014).<\/li>
  72. K. Liu, L. Zhang, T. Cao, C. H. Jin, D. Y. Qiu, Q. Zhou, A. Zettl, P. D. Yang, S. G. Louie, and F. Wang, “Evolution of Interlayer Coupling in Twisted MoS2<\/sub> Bilayers,” Nature Commun. 5, 4966 (2014).<\/li>
  73. X. Li, T. Cao, Q. Niu, J. Shi, and J. Feng, \u201cCoupling the Valley Degree of Freedom to Antiferromagnetic Order,\u201d Proc. Natl. Acad. Sci. U.S.A. 110, 3738-3742 (2013).<\/li>
  74. T. Cao, G. Wang, W. Han, H. Ye, C. Zhu, J. Shi, Q. Niu, P. Tan, E. Wang, B. Liu, and J. Feng, \u201cValley-selective Circular Dichroism of Monolayer Molybdenum Disulphide\u201d, Nature Commun. 3, 887 (2012).<\/li>
  75. T. Cao, J. Feng, and E. G. Wang, \u201cAdsorption of Hydrogen on the Interface of a Graphene\/Boron nitride Hybrid Atomic Membrane\u201d, Phys. Rev. B 84, 205447 (2011).<\/li><\/ol>\n","protected":false},"excerpt":{"rendered":"

    Please refer to the PI’s google scholar page for our latest research publications. Complete List: E. Anderson, J. Cai, A. Reddy, H. Park, W. Holtzmann,<\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":[],"_links":{"self":[{"href":"https:\/\/faculty.washington.edu\/tingcao\/wp-json\/wp\/v2\/pages\/17"}],"collection":[{"href":"https:\/\/faculty.washington.edu\/tingcao\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/faculty.washington.edu\/tingcao\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/faculty.washington.edu\/tingcao\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/faculty.washington.edu\/tingcao\/wp-json\/wp\/v2\/comments?post=17"}],"version-history":[{"count":39,"href":"https:\/\/faculty.washington.edu\/tingcao\/wp-json\/wp\/v2\/pages\/17\/revisions"}],"predecessor-version":[{"id":372,"href":"https:\/\/faculty.washington.edu\/tingcao\/wp-json\/wp\/v2\/pages\/17\/revisions\/372"}],"wp:attachment":[{"href":"https:\/\/faculty.washington.edu\/tingcao\/wp-json\/wp\/v2\/media?parent=17"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}