2021年
• Yu YE , et al; Odd-Even Layer-Number Effect and Layer-Dependent Magnetic Phase Diagrams in MnBi2Te4, Phys. Rev. X 11, 011003, (2021)
• Xiaodong XU, et al; Direct observation of two-dimensional magnons in atomically thin CrI3, Nature Physics 17, 20–25(2021)
2020年
• Yanhao Tang , et al; Simulation of Hubbard model physics in WSe2/WS2 moiré superlattices, Nature, 579, 353–358(2020)
• Yang XU, et al;Correlated insulating states at fractional fillings of moiré superlattices,Nature, 587, 214–218(2020)
• Shengwei JIANG, et al; Exchange magnetostriction in two-dimensional antiferromagnets,Nature Materials, 19, 1295–1299(2020)
• Xiaoxiao ZHANG, et al; Gate-tunable spin waves in antiferromagnetic atomic bilayers,Nature Materials 19, 838–842(2020)
• Nicolas Ubrig , et al; Design of van der Waals interfaces for broad spectrum optoelectronics, Nature Materials,19,299–304 (2020)
• Xiaodong XU, et al; Magnetic proximity and nonreciprocal current switching in a monolayer WTe2 helical edge,Nature Materials 19, 503–507(2020)
• Yu YE , et al; A quaternary van der Waals ferromagnetic semiconductor AgVP2Se6, Advanced Functional Materials, 30, 1910036 (2020)
• Xiaodong XU , et al; Valley phonons and exciton complexes in a monolayer semiconductor,Nature Communications 11, 618 (2020)
• Mingyuan HUANG, et al; Probing the Ferromagnetism and Spin Wave Gap in VI3 by HelicityResolved Raman Spectroscopy.Nano Lett. 2020, 20, 6024−6031
• Mingyuan HUANG, et al; Magnetic Order-Induced Polarization Anomaly of Raman Scattering in 2D Magnet CrI3. Nano Lett. 2020, 20, 729−734
2019年及之前
• Tingxin LI, , et al; Pressure-controlled interlayer magnetism in atomically thin CrI3,Nature Materials18, 1303–1308(2019)
• Xiaodong XU, et al; Switching 2D magnetic states via pressure tuning of layer stacking. Nature Materials 18,1298–1302(2019)
• Shengwei JIANG, et al; Spin tunnel field-effect transistors based on two-dimensional van der Waals heterostructures, Nature Electronics 2, 159–163(2019)
• Chaoyang Lu et.al, Coherently driving a single quantum two-level system with dichromatic laser pulses, Nature Physics, 15,941-945,(2019)
• Chaoyang Lu et.al, Towards optimal single-photon sources from polarized microcavities. Nature Photonics, 13, 770–775 (2019)
• Chaoyang LU, et al; Boson Sampling with 20 Input Photons and a 60-Mode Interferometer in a 1014-Dimensional Hilbert Space. Phys. Rev. Lett. 123, 250503 (2019)
• Yuanbo Zhang , et al; Evidence of a gate-tunable Mott insulator in a trilayer graphene moiré superlattice. Nature Physics 15, 237–241(2019)
• Hyun Ho Kim, et al; Evolution of interlayer and intralayer magnetism in three atomically thin chromium trihalides, PNAS , 2019 116 (23) 11131-11136
• Xiaodong XU, et al; Voltage Control of a van der Waals Spin-Filter Magnetic Tunnel Junction,Nano Lett. 2019, 19, 2, 915–920
• Yuanbo Zhang et. Al, “Signatures of tunable superconductivity in a trilayer graphene moiré superlattice”Nature, 572, 215-219 (2019)
• P. Maletinsky et. Al, Probing magnetism in 2D materials at the nanoscale with single-spin microscopy, Science, 364, 973 (2019)
• Haomin WANG et al, “Isolating hydrogen in hexagonal boron nitride bubbles by a plasma treatment”.Nature communications, 10, 2815 (2019)
• Mingyuan Huang et.al, Magnetic Order-Induced Polarization Anomaly of Raman Scattering in 2D Magnet CrI3, Nano Letters, 2020,20,1, 729-734
• Alexander Högele et. al, Cavity-control of interlayer excitons in van der Waals heterostructures, Nature communications, 2019,10:3697.
• Hanxuan Lin, et al. Unexpected Intermediate State Photoinduced in the Metal-Insulator Transition of Submicrometer Phase-Separated Manganites. Phys. Rev. Lett. 120, 267202(2018)
• Chaoyang Lu et.al, High-efficiency multiphoton boson sampling. Nature Photonics, 11, 361-365, (2017)
• K. Yasuda, et al. Quantized chiral edge conduction on domain walls of a magnetic topological insulator. Science 2017, 358, 1311-1314
• Zhu, Y. et al. Chemical ordering suppresses large-scale electronic phase separation in doped manganites. Nature communications, 2016,7:11260.
• Yang, W.;et al. Electrically Tunable Valley-Light Emitting Diode (vLED) Based on CVD-Grown Monolayer WS2. Nano Letters 2016, 16, 1560-1567.
• Surajit Saha; et al. Long-range magnetic coupling across a polar insulating layer, Nature communications, 2016,7:11015.
• He, Y. M.; et al. Single quantum emitters in monolayer semiconductors. Nature Nanotechnology 2015, 10, 497-502.
• Nazin, G.; et al. Visualization of charge transport through Landau levels in graphene. Nature Physics 2010, 6, 870-874.
• Proton magnetic resonance imaging using a nitrogen–vacancy spin sensor. Nature Nanotechnology, 2015,10,120-124.
• Nanoscale nuclear magnetic imaging with chemical contrast. Nature Nanotechnology, 2015, 10, 125-128.
• Observation of biexcitons in monolayer WSe2. Nature Physics, 2015, 11, 477-481.
• Visualization of a ferromagnetic metallic edge state in manganite strips. Nature Communications, 2015, 6:6179.
• Observation of Excitonic Fine Structure in a 2D Transition-Metal Dichalcogenide Semiconductor. ACS Nano, 2015, 9, 647-655.
• Energy losses of nanomechanical resonators induced by atomic force microscopy-controlled mechanical impedance mismatching. Nature Communications, 2014, 5:3345.
• Deterministic and electrically tunable bright single-photon source. Nature Communications, 2014, 5:3240.
• Dynamic Visualization of Nanoscale Vortex Orbits. ACS Nano, 2014, 8, 2782-2787.
• Transition from slow Abrikosov to fast moving Josephson vortices in iron pnictide superconductors. Nature Materials, 2013, 12, 134-138.
• Stray-field imaging of magnetic vortices with a single diamond spin. Nature Communications, 2013, 4:2279.
• Realization of pristine and locally tunable one-dimensional electron systems in carbon nanotubes. Nature Nanotechnology, 2013, 8, 569-574.
• Strong magnetophonon resonance induced triple G-mode splitting in graphene on graphite probed by micromagneto Raman spectroscopy. Physical Review B, 2013, 88, 165407.
• Origin of negative magnetoresistance of GaAs/(Ga,Mn)As core-shell nanowires. Physical Review B, 2013, 87, 245303.
• Magnetic Imaging on the Nanometer Scale Using Low-Temperature Scanning Probe Techniques. Microscopy Today, 2011, 19, 34-38.
• Visualization of charge transport through Landau levels in graphene. Nature Physics, 2010, 6, 870-874.