[1] Chen Pengfei, Li Neng, Chen Xinzhu, et al . The rising star of 2D black phosphorus beyond graphene: Synthesis,properties and electronic applicatios [J]. D Materials , 2018, 5: 014002.

[2] Liang Fengxia, Ren Yuhang, Zhang Xiaodong, et al . Electronic properties and optical absorption of a phosphorene quantum dot [J]. Journal of Applied Physics , 2018, 123: 125109.

[3] Abdelsalam H, Saroka V A, Lukyanchuk I, et al . Multilayer phosphorene quantum dots in an electric field: Energy levels and optical absorption [J]. Journal of Applied Physics , 2018, 124: 124303.

[4] Wang Ke, Wang Hai, Zhang Min, et al . Electrical properties of phosphorene systems doped with fourth-period elements [J]. Applied Physics Letters , 2018, 112: 202101.

[5] Kavoos M, Ziba T, Farzaneh S. Electro/mechanical mutable properties of black phosphorene by electric field and strain engineering [J]. IOP Science , 2018, 5: 066307.

[6] Li Xiaojing, Yu Jiahan, Luo Kun, et al . Tuning the electrical and optical anisotropy of a monolayer black phosphorus magnetic superlattice [J]. IOP Science , 2018, 29: 174001.

[7] Margulis VI A, Muryumin E E. Theory for surface polaritons supported by a black-phosphorus monolayer [J]. Physical Review B , 2018, 98: 165305.

[8] Zhao Cuilan, Wang Long. Effect of temperature on ground state energy and band bap of monolayer black phosphorus [J]. Chinese Journal of Quantum Electronics (量子电子学报), 2018, 35(6): 736-742 (in Chinese).

[9] Rudenko A N, Katsnelson M I. Quasiparticle band structure and tight-binding model for single-and bilayer black phosphorus [J]. Physical Review B , 2014, 89: 201408.

[10] Rudebko A N, Yuan Shenjun, Katsnelson M I. Toward a realistic description of multilayer black phosphorus: From GW approximation to large-scale tight-binding simulations [J]. Physical Review B , 2015, 92(8): 085419.

[11] Rodin A S, Carvalho A, Castro Neto A H. Strain-induced gap modification in black phosphorus [J]. Physical Review Letters , 2014, 112(17): 176801.

[12] Pereira Jr J M, Katsnelson M I. Landau levels of single-layer and bilayer phosphorene [J]. Physical Review B , 2015, 92: 075437.

[13] Zhou Xiaoying, Zhang Rui, Sun Jianpeng, et al . Landau levels and magneto-transport property of monolayer phosphorene [J]. Scientific Reports , 2015, 5: 12295.

[14] Ezawa M, New J. Topological origin of quasi-flat edge band in phosphorene [J]. Physics , 2014, 16: 115004.

[15] Wang S Q, Mahan G D. Electron scattering from surface excitations [J]. Physical Review B , 1972, (12): 4517-4524.

[16] Mori N, Ando T. Electron-optical-phonon interaction in single and double structures [J]. Physical Review B , 1989, 40(9): 6175-6188.

[17] Sak J. Theory of surface polarons [J]. Physical Review B , 1972, 6: 3981-3986.

[18] Mogclkoc A, Mogulkoc Y. Polaronic effects in monolayer black phosphorus on polar substrates [J]. Physical Review B , 2016, 93: 085417.

[19] Wang Ziwu, Liu Lei, Li Zhiqing. Energy gap induced by the surface optical polaron in grapheme on polar substrates [J]. Applied Physics Letters , 2015, 106: 101601.

[20] Konar A, Fang Tian, Jena D. Effect of high-gate dielectrics on charge transport in graphene-based field effect transistors [J]. Physical Review B , 2010, 82: 115452.