[1] S Balendhran, S Walia, H Nili, S Sriram, M Bhaskaran. Small, 11, 640(2015).

[2] G R Bhimanapati, Z Lin, V Meunier, Y Jung, J Cha, S Das, D Xiao, Y Son, M S Strano, V R Cooper. ACS Nano, 9(2015).

[3] A Molle, J Goldberger, M Houssa, Y Xu, S C Zhang, D Akinwande. Nat. Mater, 16, 163(2017).

[4] Y Zhang, Y W Tan, H L Stormer, P Kim. Nature, 438, 201(2005).

[5] A K Geim, K S Novoselov. Nanoscience and technology: a collection of reviews from nature journals, 11-19(2010).

[6] A C Neto, F Guinea, N M Peres, K S Novoselov, A K Geim. Rev. Mod. Phys, 81, 109(2009).

[7] Y Zhang, T T Tang, C Girit, Z Hao, M C Martin, A Zettl, M F Crommie, Y R Shen, F Wang. Nature, 459, 820(2009).

[8] C L Kane, E J Mele. Phys. Rev. Lett, 95(2005).

[9] G Li, Y Li, H Liu, Y Guo, Y Li, D Zhu. Chem. Commun, 46, 3256(2010).

[10] C C Liu, W Feng, Y Yao. Phys. Rev. Lett, 107(2011).

[11] A Fleurence, R Friedlein, T Ozaki, H Kawai, Y Wang, Y Yamada-Takamura. Phys. Rev. Lett, 108(2012).

[12] Z Ni, Q Liu, K Tang, J Zheng, J Zhou, R Qin, Z Gao, D Yu, J Lu. Nano Lett, 12, 113(2012).

[13] M Dávila, L Xian, S Cahangirov, A Rubio, G Le Lay. New J. Phys, 16(2014).

[14] P Tang, P Chen, W Cao, H Huang, S Cahangirov, L Xian, Y Xu, S C Zhang, W Duan, A Rubio. Phys. Rev. B, 90(2014).

[15] F F Zhu, W J Chen, Y Xu, C L Gao, D D Guan, C H Liu, D Qian, S C Zhang, J F Jia. Nat. Mater, 14, 1020(2015).

[16] A J Mannix, X F Zhou, B Kiraly, J D Wood, D Alducin, B D Myers, X Liu, B L Fisher, U Santiago, J R Guest. Science, 350, 1513(2015).

[17] A J Mannix, Z Zhang, N P Guisinger, B I Yakobson, M C Hersam. Nat. Nanotechnol, 13, 444(2018).

[18] B Feng, J Zhang, Q Zhong, W Li, S Li, H Li, P Cheng, S Meng, L Chen, K Wu. Nat. Chem, 8, 563(2016).

[19] L Li, Y Yu, G J Ye, Q Ge, X Ou, H Wu, D Feng, X H Chen, Y Zhang. Nat. Nanotechnol, 9, 372(2014).

[20] H Liu, A T Neal, Z Zhu, Z Luo, X Xu, D Tománek, P D Ye. ACS Nano, 8, 4033(2014).

[21] J Qiao, X Kong, Z X Hu, F Yang, W Ji. Nat. Commun, 5, 1(2014).

[22] Q Wei, X Peng. Appl. Phys. Lett, 104(2014).

[23] J Kim, S S Baik, S H Ryu, Y Sohn, S Park, B G Park, J Denlinger, Y Yi, H J Choi, K S Kim. Science, 349, 723(2015).

[24] S Zhang, Z Yan, Y Li, Z Chen, H Zeng. Angew. Chem. Int. Ed, 54, 3112(2015).

[25] J Ji, X Song, J Liu, Z Yan, C Huo, S Zhang, M Su, L Liao, W Wang, Z Ni. Nat. Commun, 7(2016).

[26] I K Drozdov, A Alexandradinata, S Jeon, S Nadj-Perge, H Ji, R J Cava, B A Bernevig, A Yazdani. Nat. Phys, 10, 664(2014).

[27] F Xia, T Mueller, Y-m Lin, A Valdes-Garcia, P Avouris. Nat. Nanotechnol, 4, 839(2009).

[28] C H Liu, Y C Chang, T B Norris, Z Zhong. Nat. Nanotechnology, 9, 273(2014).

[29] X K Kong, C L Chen, Q W Chen. Chem. Soc. Rev, 43, 2841(2014).

[30] H X Deng, Z G Song, S S Li, S H Wei, J W Luo. Chin. Phys. Lett, 35(2018).

[31] H Li, Z Y Wang, X J Zheng, Y Liu, Y Zhong. Chin. Phys. Lett, 35(2018).

[32] Y Gong, J Guo, J Li, K Zhu, M Liao, X Liu, Q Zhang, L Gu, L Tang, X Feng. Chin. Phys. Lett, 36(2019).

[33] G Jiang, Y Feng, W Wu, S Li, Y Bai, Y Li, Q Zhang, L Gu, X Feng, D Zhang. Chin. Phys. Lett, 35(2018).

[34] D Wu, Z Mi, Y Li, W Wu, P Li, Y Song, G Liu, G Li, J Luo. Chin. Phys. Lett, 36(2019).

[35] Y T Jia, J F Zhao, S J Zhang, S Yu, G Y Dai, W M Li, L Duan, G Q Zhao, X C Wang, X Zheng. Chin. Phys. Lett, 36(2019).

[36] Y Cao, V Fatemi, S Fang, K Watanabe, T Taniguchi, E Kaxiras, P Jarillo-Herrero. Nature, 556, 43(2018).

[37] M Liao, Y Zang, Z Guan, H Li, Y Gong, K Zhu, X P Hu, D Zhang, Y Xu, Y Y Wang. Nat. Phys, 14, 344(2018).

[38] X Kong, Q Liu, C Zhang, Z Peng, Q Chen. Chem. Soc. Rev, 46, 2127(2017).

[39] M S Kim, X H Ma, K H Cho, S Y Jeon, K Hur, Y M Sung. Adv. Mater, 30(2018).

[40] S Yi, Z Zhu, X Cai, Y Jia, J H Cho. Inorg. Chem, 57, 5083(2018).

[41] Y Du, G Qiu, Y Wang, M Si, X Xu, W Wu, P D Ye. Nano Lett, 17, 3965(2017).

[42] X Huang, J Guan, Z Lin, B Liu, S Xing, W Wang, J Guo. Nano Lett, 17, 4619(2017).

[43] J Chen, Y Dai, Y Ma, X Dai, W Ho, M Xie. Nanoscale, 9(2017).

[44] Y Wang, G Qiu, R Wang, S Huang, Q Wang, Y Liu, Y Du, W A Goddard, M J Kim, X Xu. Nat. Electron, 1, 228(2018).

[45] Z Zhu, X Cai, S Yi, J Chen, Y Dai, C Niu, Z Guo, M Xie, F Liu, J H Cho. Phys. Rev. Lett, 119(2017).

[46] J Qiao, Y Pan, F Yang, C Wang, Y Chai, W Ji. Sci. Bull, 63, 159(2018).

[47] Y Wang, C Xiao, M Chen, C Hua, J Zou, C Wu, J Jiang, S A Yang, Y Lu, W Ji. Mater. Horizons, 5, 521(2018).

[48] L Chao, A Bukhtiar, S Xi, P P Kong, W P Wang, H F Zhao, Y Yao, B S Zou, Y C Li, X D Li, J Liu, C Q Jin, R C Yu. Chin. Phys. B, 24(2015).

[49] X Q Tia, S X Du, H J Gao. Chin. Phys. B, 17, 286(2008).

[50] W Zhang, Q Wu, O V Yazyev, H Weng, Z Guo, W D Cheng, G L Chai. Phys. Rev. B, 98(2018).

[51] D W Zhou, C Y Pu, S Dominik, G F Zhang, C Lu, G Q Li, J F Song. Chin. Phys. Lett, 30(2013).

[52] C Wang, X Zhou, J Qiao, L Zhou, X Kong, Y Pan, Z Cheng, Y Chai, W Ji. Nanoscale, 10(2018).

[53] J Qiao, L Zhou, W Ji. Chin. Phys. B, 26(2017).

[54] Z X Hu, X Kong, J Qiao, B Normand, W Ji. Nanoscale, 8, 2740(2016).

[55] Q Jia, X Kong, J Qiao, W Ji. Sci. China-Phys. Mech. Astron, 59(2016).

[56] Y Du, J Zhuang, J Wang, Z Li, H Liu, J Zhao, X Xu, H Feng, L Chen, K Wu. Sci. Adv, 2(2016).

[57] R Arafune, C L Lin, K Kawahara, N Tsukahara, E Minamitani, Y Kim, N Takagi, M Kawai. Surf. Sci, 608, 297(2013).

[58] Z Shuai. Chin. Phys. Lett, 37(2020).

[59] J Zhang, S Zhang, X Qiu, Y Wu, Q Sun, J Zou, T Li, P Chen. Chin. Phys. Lett, 37(2020).

[60] T Zhou, X G Zhu, M Tong, Y Zhang, X B Luo, X Xie, W Feng, Q Chen, S Tan, Z Y Wang. Chin. Phys. Lett, 36(2019).

[61] L A Agapito, N Kioussis, I I I W A Goddard, N P Ong. Phys. Rev. Lett, 110(2013).

[62] P E Blöchl. Phys. Rev. B, 50(1994).

[63] G Kresse, D Joubert. Phys. Rev. B, 59, 1758(1999).

[64] G Kresse, J Furthmüller. Phys. Rev. B, 54(1996).

[65] P Giannozzi, S Baroni, N Bonini, M Calandra, R Car, C Cavazzoni, D Ceresoli, G L Chiarotti, M Cococcioni, I Dabo. J. Phys.: Condens. Matter, 21(2009).

[66] M Dion, H Rydberg, E Schröder, D C Langreth, B I Lundqvist. Phys. Rev. Lett, 92(2004).

[67] K Lee, É D Murray, L Kong, B I Lundqvist, D C Langreth. Phys. Rev. B, 82(2010).

[68] J Klimeš, D R Bowler, A Michaelides. J. Phys.: Condens. Matter, 22(2010).

[69] J Klimeš, D R Bowler, A Michaelides. Phys. Rev. B, 83(2011).

[70] T Thonhauser, V R Cooper, S Li, A Puzder, P Hyldgaard, D C Langreth. Phys. Rev. B, 76(2007).

[71] J Heyd, G E Scuseria, M Ernzerhof. J. Chem. Phys, 118, 8207(2003).

[72] J Hong, Z Hu, M Probert, K Li, D Lv, X Yang, L Gu, N Mao, Q Feng, L Xie. Nat. Commun, 6, 1(2015).

[73] Y Zhao, J Qiao, Z Yu, P Yu, K Xu, S P Lau, W Zhou, Z Liu, X Wang, W Ji. Adv. Mater, 29(2017).

[74] X F Qiao, J B Wu, L Zhou, J Qiao, W Shi, T Chen, X Zhang, J Zhang, W Ji, P H Tan. Nanoscale, 8, 8324(2016).

[75] W Ji, Z Y Lu, H Gao. Phys. Rev. Lett, 97(2006).

[76] C Wang, X Zhou, Y Pan, J Qiao, X Kong, C C Kaun, W Ji. Phys. Rev. B, 97(2018).

[77] L Shulenburger, A D Baczewski, Z Zhu, J Guan, D Tomanek. Nano Lett, 15, 8170(2015).

[78] J Jamieson, D McWhan. J. Chem. Phys, 43, 1149(1965).