Wafer-scale single-crystal hexagonal boron nitride monolayers on Cu (111)
暂无分享,去创建一个
Chien-Chih Tseng | Lain-Jong Li | Boris I. Yakobson | Qiang Fu | Wen-Hao Chang | Q. Fu | B. Yakobson | Lain‐Jong Li | Yanfeng Zhang | Wen‐Hao Chang | C. Tseng | H. P. Wong | Yanfeng Zhang | Chih-Piao Chuu | Tse-An Chen | Shuangyuan Pan | W. Chueh | Chih-Piao Chuu | Shuangyuan Pan | Tse-An Chen | Chao-Kai Wen | H.-S. Philip Wong | Rongtan Li | Tzu-Ang Chao | Wei-Chen Chueh | Rongtan Li | C. Wen | Tzu-Ang Chao | Chien-Chih Tseng
[1] Enge Wang,et al. Epitaxial growth of a 100-square-centimetre single-crystal hexagonal boron nitride monolayer on copper , 2019, Nature.
[2] Soo Min Kim,et al. Wafer-scale single-crystal hexagonal boron nitride film via self-collimated grain formation , 2019, 2019 Compound Semiconductor Week (CSW).
[3] Wen‐Hao Chang,et al. Monolayer MoS2 Enabled Single-Crystalline Growth of AlN on Si(100) Using Low-Temperature Helicon Sputtering , 2019, ACS Applied Nano Materials.
[4] Ksenia V. Bets,et al. How the Complementarity at Vicinal Steps Enables Growth of 2D Monocrystals. , 2019, Nano letters.
[5] Lain‐Jong Li,et al. How 2D semiconductors could extend Moore’s law , 2019, Nature.
[6] Bin Wang,et al. Colossal grain growth yields single-crystal metal foils by contact-free annealing , 2018, Science.
[7] Xiaohui Qiu,et al. Wrinkle-Free Single-Crystal Graphene Wafer Grown on Strain-Engineered Substrates. , 2017, ACS nano.
[8] H. Ago,et al. Epitaxial chemical vapour deposition growth of monolayer hexagonal boron nitride on a Cu(111)/sapphire substrate. , 2017, Physical chemistry chemical physics : PCCP.
[9] Zhirong Liu,et al. Controlling the orientations of h-BN during growth on transition metals by chemical vapor deposition. , 2017, Nanoscale.
[10] K. Novoselov,et al. 2D materials and van der Waals heterostructures , 2016, Science.
[11] C. Jin,et al. Growth of Polar Hexagonal Boron Nitride Monolayer on Nonpolar Copper with Unique Orientation. , 2016, Small.
[12] Jingyu Sun,et al. Chemical vapor deposition growth of large-scale hexagonal boron nitride with controllable orientation , 2015, Nano Research.
[13] H. Jeong,et al. Growth of high-crystalline, single-layer hexagonal boron nitride on recyclable platinum foil. , 2013, Nano letters.
[14] Marcella Iannuzzi,et al. Boron nitride on Cu(111): an electronically corrugated monolayer. , 2012, Nano letters.
[15] Pablo Jarillo-Herrero,et al. Emergence of superlattice Dirac points in graphene on hexagonal boron nitride , 2012, Nature Physics.
[16] Q. Fu,et al. Repeated growth and bubbling transfer of graphene with millimetre-size single-crystal grains using platinum , 2012, Nature Communications.
[17] Q. Fu,et al. Pb intercalation underneath a graphene layer on Ru(0001) and its effect on graphene oxidation. , 2011, Physical chemistry chemical physics : PCCP.
[18] D. Bowler,et al. Van der Waals density functionals applied to solids , 2011, 1102.1358.
[19] S. Bhowmick,et al. BN white graphene with "colorful" edges: the energies and morphology. , 2011, Nano letters.
[20] K. Shepard,et al. Boron nitride substrates for high-quality graphene electronics. , 2010, Nature nanotechnology.
[21] Burke,et al. Generalized Gradient Approximation Made Simple. , 1996, Physical review letters.
[22] G. Kresse,et al. Efficiency of ab-initio total energy calculations for metals and semiconductors using a plane-wave basis set , 1996 .
[23] Cedric Huyghebaert,et al. Epitaxial Al2O3(0001)/Cu(111) Template Development for CVD Graphene Growth , 2016 .