Single Crystalline SmB6 Nanostructure Arrays: Controllable Synthesis and Field Emission Property

Tong ZHANG; Zi-Juan LI; Ze-Kun GUO; Yan TIAN; Hao-Jian LIN; Ning-Sheng XU; Jun CHEN; Shao-Zhi DENG; Fei LIU

doi:10.15541/jim20190070

[1] MAXIM DZERO, KAI SUN, VICTOR GALITSKI et al. Topological Kondo insulators. Physics Review Letters, 104, 2909-2915(2010).

[2] FENG LU, JIAN-ZHOU ZHAO, HONG-MING WENG et al. Correlated topological insulators with mixed valence. Physical Review Letters, 110, 096401(2013).

[3] J JIANG, S LI, T ZHANG. et al. Observation of possible topological in-gap surface states in the Kondo insulator SmB6 by photoemission. Nature Communications, 4, 3010(2013).

[4] J KIM D, S THOMAS, T GRANT et al. Surface hall effect and nonlocal transport in SmB₆: evidence for surface conduction. Sci. Rep., 3, 3150(2013).

[5] XIAO-HANG ZHANG, P BUTCH N, P SYERS et al. Hybridization, inter-ion correlation, and surface states in the Kondo insulator SmB₆. Phys. Rev. X, 3, 582-586(2013).

[6] J KIM D, J XIA, Z FISK. Topological surface state in the Kondo insulator samarium hexaboride. Nature Materials, 13, 466-470(2014).

[7] G LI, Z XIANG, F YU et al. Two-dimensional Fermi surfaces in Kondo insulating SmB₆. Science, 346, 1208-1212(2014).

[8] JUN-QI XU, GUANG-HUA HOU, HUI-QIAO LI et al. Fabrication of vertically aligned single-crystalline lanthanum hexaboride nanowire arrays and investigation of their field emission. NPG Asia Materials, 5, e53(2013).

[9] H JI X, Y ZHANG Q, Q XU J et al. Rare-earth hexaborides nanostructures: recent advances in materials, characterization and investigations of physical properties. Progress in Solid State Chemistry, 39, 51-69(2011).

[10] HAN ZHANG, JIE TANG, QI ZHANG et al. Field emission of electrons from single LaB₆ nanowires. Advanced Materials, 18, 87-91(2010).

[11] R SURYAWANSHI SACHIN, NILESH KANHE, L MATHE VIKAS et al. Extraction of the very high tunneling current and extremely stable emission current from GdB₆/W‐tip source synthesized using arc plasma. Chemistryselect, 2, 562-566(2017).

[12] YAN-MING ZHAO, LIU-SHENG OUYANG, CHUN-YUN ZOU et al. Field emission from single-crystalline CeB₆ nanowires. Journal of Rare Earths, 28, 424-427(2010).

[13] HAN ZHANG, JIE TANG, JIN-SHI YUAN et al. An ultrabright and monochromatic electron point source made of a LaB₆ nanowire. Nature Nanotechnology, 11, 273-279(2016).

[14] XUN YANG, HAI-BO GAN, YAN TIAN et al. An easy way to controllably synthesize one-dimensional SmB₆ topological insulator nanostructures and exploration of their field emission applications. Chinese Physics B, 26, 503-509(2017).

[15] Q XU J, M ZHAO Y, H JI X et al. Growth of single-crystalline SmB₆ nanowires and their temperature-dependent electron field emission. Journal of Physics D Applied Physics, 42, 135403(2009).

[16] NORIO OGITA, SHIINJI NAGAI, NAOKI OKAMOTO et al. Raman scattering investigation of RB₆(R = Ca, La, Ce, Pr, Sm, Gd, Dy, and Yb). Phys. Rev. B, 68, 224305(2003).

[17] A UIJTTEWAAL M, G A DE WIJS, R A DE GROOT. Ab initio and work function and surface energy anisotropy of LaB₆. Journal of Physical Chemistry B, 110, 18459-18465(2006).

[18] M AONO, R NISHITANI, C OSHIMA et al. LaB₆ and SmB₆(001) surfaces studied by angle-resolved XPS, LEED and ISS. Surface Science, 86, 631-637(1979).

[19] B MICHAELSON HERBERT. The work function of the elements and its periodicity. Journal of Applied Physics, 48, 4729-4733(1977).

[20] FEI LIU, TONG-YI GUO, ZHUO XU et al. Controlled synthesis of patterned W₁₈O₄₉ nanowire vertical-arrays and improved field emission performance by in situ plasma treatment. Journal of Materials Chemistry C, 1, 3217-3225(2013).

[21] YUN-NING SUN, KI-NAM YUN, GUILLAUME LETI et al. High-performance field emission of carbon nanotube paste emitters fabricated using graphite nanopowder filler. Nanotechnology, 28, 065201(2017).

[22] Z XING G, S FANG X, Z ZHANG et al. Ultrathin single-crystal ZnO nanobelts: Ag-catalyzed growth and field emission property. Nanotechnology, 21, 255701(2010).