23. Ares, P., Palacios, J.J., Abellán, G., Gómez-errero, J., Zamora, F., Recent progress on antimonene: A new bidimensional material. Adv. Mater. , 30, 1703771, 2018.
24. Koma, A., van der Waals epitaxy—A new epitaxial growth method for a highly lattice-mismatched system. Thin Solid Films , 216, 72, 1992.
25. Ji, J., Song, X., Liu, J., Yan, Z., Huo, C., Zhang, S., Su, M., Liao, L., Wang, W., Ni, Z., Hao, Y., Zeng, H., Two-dimensional antimonene single crystals grown by van der Waals epitaxy. Nat. Commun. , 7, 13352, 2016.
26. Sun, X., Lu, Z., Xiang, Y., Wang, Y., Shi, J., Wang, G.C., Washington, M.A., Lu, T.M., van der Waals epitaxy of antimony islands, sheets, and thin films on single-crystalline graphene. ACS Nano , 12, 6100, 2018.
27. Liu, X., Sun, G., Chen, P., Liu, J., Zhang, Z., Li, J., Ma, H., Zhao, B., Wu, R., Dang, W., Yang, X., Dai, C., Tang, X., Chen, Z., Miao, L., Liu, X., Li, B., Liu, Y., Duan, X., High-performance asymmetric electrodes photodiode based on Sb/WSe 2heterostructure. Nano Res. , 12, 339, 2018.
28. Lei, T., Liu, C., Zhao, J., Li, J., Li, Y., Wang, J., Wu, R., Qian, H., Wang, H., Ibrahim, K., Electronic structure of antimonene grown on Sb 2Te 3(111) and Bi 2Te 3substrates. J. Appl. Phys. , 119, 015302, 2016.
29. Wu, X., Shao, Y., Liu, H., Feng, Z., Wang, Y., Sun, J., Liu, C., Wang, J., Liu, Z., Zhu, S., Wang, Y., Du, S., Shi, Y., Ibrahim, K., Gao, H., Epitaxial growth and air-stability of monolayer antimonene on PdTe 2. Adv. Mater. , 29, 1605407, 2017.
30. Shi, Z., Li, H., Yuan, Q., Song, Y., Lv, Y., Shi, W., Jia, Z., Gao, L., Chen, Y., Zhu, W., Li, S., Van der Waals heteroepitaxial growth of monolayer Sb in a puckered honeycomb structure. Adv. Mater. , 31, 1806130, 2019.
31. Chen, K., Lee, L.M., Chen, H.A., Sun, H., Wu, C., Chen, H., Lin, K., Tseng, Y.C., Kaun, C.C., Pao, C.W., Lin, S.Y., Multi-layer elemental 2D materials antimonene, germanene and stanene grown directly on molybdenum disulfides. Semicond. Sci. Technol. , 34, 105020, 2019.
32. Fortin-Deschenes, M., Jacobberger, R.M., Deslauriers, C.A., Waller, O., Bouthillier, E., Arnold, M.S., Moutanabbir, O., Dynamics of antimonenegraphene van der Waals growth. Adv. Mater. , 31, 1900569, 2019.
33. Fortin-Deschenes, M., Waller, O., Mentes, T.O., Locatelli, A., Mukherjee, S., Genuzio, F., Levesque, P.L., Hebert, A., Martel, R., Moutanabbir, O., Synthesis of antimonene on germanium. Nano Lett. , 17, 4970, 2017.
34. Shao, Y., Liu, Z.L., Cheng, C., Wu, X., Liu, H., Liu, C., Wang, J.O., Zhu, S.Y., Wang, Y.Q., Shi, D.X., Ibrahim, K., Sun, J.T., Wang, Y.L., Gao, H.J., Epitaxial growth of flat antimonene monolayer: A new honeycomb analogue of graphene. Nano Lett. , 18, 2133, 2018.
35. Jałochowski, M. and Krawiec, M., Antimonene on Pb quantum wells. 2D Mater. , 6, 045028, 2019.
36. Niu, T., Zhou, W., Zhou, D., Hu, X., Zhang, S., Zhang, K., Zhou, M., Fuchs, H., Zeng, H., Modulating epitaxial atomic structure of antimonene through interface design. Adv. Mater. , 31, 1902606, 2019.
37. Peng, L., Ye, S., Song, J., Qu, J., Solution-phase synthesis of few-layer hexagonal antimonene nanosheets via anisotropic growth. Angew. Chem. Int. Ed. , 58, 9891, 2019.
38. Tsai, H.S., Chen, C.W., Hsiao, C.H., Ouyang, H., Liang, J.H., The advent of multilayer antimonene nanoribbons with room temperature orange light emission. Chem. Commun. , 52, 8409, 2016.
39. Wu, Q. and Song, Y.J., The environmental stability of large-size and single-crystalline antimony flakes grown by chemical vapor deposition on SiO 2substrates. Chem. Commun. , 54, 9671, 2018.
40. Kim, S.H., Jin, K.H., Kho, B.W., Park, B.G., Liu, F., Kim, J.S., Yeom, H.W., Atomically abrupt topological p-n junction. ACS Nano , 11, 9671, 2017.
41. Kim, S.H., Jin, K.H., Park, J., Kim, J.S., Jhi, S.H., Yeom, H.W., Topological phase transition and quantum spin hall edge states of antimony few layers. Sci. Rep. , 6, 33193, 2016.
42. Wang, M., Zhang, F., Wang, Z., Wu, Z., Xu, X., Passively Q-switched Nd 3+solid-state lasers with antimonene as saturable absorber. Opt. Express , 26, 4085, 2018.
43. Wang, Y., Huang, W., Wang, C., Guo, J., Zhang, F., Song, Y., Ge, Y., Wu, L., Liu, J., Li, J., Zhang, H., An all-optical, actively Q-switched fiber laser by an antimonene-based optical modulator. Laser Photonics Rev. , 13, 1800313, 2019.
44. Zhang, F., Wang, M., Wang, Z., Han, K., Liu, X., Xu, X., Excellent nonlinear absorption properties of β-antimonene nanosheets. J. Mater. Chem. C , 6, 2848, 2018.
45. Liu, G., Zhang, F., Wu, T., Li, Z., Zhang, W., Han, K., Xing, F., Man, Z., Ge, X., Fu, S., Single-and dual-wavelength passively mode-locked erbium-doped fiber laser based on antimonene saturable absorber. IEEE Photonics J. , 11, 1503011, 2019.
46. Song, Y., Chen, Y., Jiang, X., Liang, W., Wang, K., Liang, Z., Ge, Y., Zhang, F., Wu, L., Zheng, J., Ji, J., Zhang, H., Nonlinear few-layer antimonene-based all-optical signal processing: Ultrafast optical switching and high-speed wavelength conversion. Adv. Opt. Mater. , 6, 1701287, 2018.
47. Song, Y., Liang, Z., Jiang, X., Chen, Y., Li, Z., Lu, L., Ge, Y., Wang, K., Zheng, J., Lu, S., Ji, J., Zhang, H., Few-layer antimonene decorated microfiber: Ultrashort pulse generation and all-optical thresholding with enhanced long term stability. 2D Mater. , 4, 045010, 2017.
48. Zhang, F., He, J., Xiang, Y., Zheng, K., Xue, B., Ye, S., Peng, X., Hao, Y., Lian, J., Zeng, P., Qu, J., Song, J., Semimetal-semiconductor transitions for monolayer antimonene nanosheets and their application in perovskite solar cells. Adv. Mater. , 30, 1803244, 2018.
49. Zhang, C., Li, Y., Zhang, P., Qiu, M., Jiang, X., Zhang, H., Antimonene quantum dot-based solid-state solar cells with enhanced performance and high stability. Sol. Energy Mater. Sol. Cells , 189, 11, 2019.
50. Wang, Z., Zhang, R., Zhao, M., Wang, Z., Wei, B., Zhang, X., Feng, S., Cao, H., Liu, P., Hao, Y., Wang, H., Xu, B., Pennycook, S.J., Guo, J., High-yield production of stable antimonene quantum sheets for highly efficient organic photovoltaics. J. Mater. Chem. A , 6, 23773, 2018.
51. Voiry, D., Salehi, M., Silva, R., Fujita, T., Chen, M., Asefa, T., Shenoy, V.B., Eda, G., Chhowalla, M., Conducting MoS 2nanosheets as catalysts for hydrogen evolution reaction. Nano Lett. , 13, 6222, 2013.
52. Yu, X., Prevot, M.S., Guijarro, N., Sivula, K., Self-assembled 2D WSe 2thin films for photoelectrochemical hydrogen production. Nat. Commun. , 6, 7596, 2015.
53. Zhang, K., Jin, B., Park, C., Cho, Y., Song, X., Shi, X., Zhang, S., Kim, W., Zeng, H., Park, J.H., Black phosphorene as a hole extraction layer boosting solar water splitting of oxygen evolution catalysts. Nat. Commun. , 10, 2001, 2019.
54. Ren, X., Li, Z., Qiao, H., Liang, W., Liu, H., Zhang, F., Qi, X., Liu, Y., Huang, Z., Zhang, D., Li, J., Zhong, J., Zhang, H., Few-layer antimonene nanosheet: A metal-free bifunctional electrocatalyst for effective water splitting. ACS Appl. Energy Mater. , 2, 4774, 2019.
55. Li, F., Xue, M., Li, J., Ma, X., Chen, L., Zhang, X., MacFarlane, D.R., Zhang, J., Unlocking the electrocatalytic activity of antimony for CO 2reduction by two-dimensional engineering of the bulk material. Angew. Chem. Int. Ed. , 56, 14718, 2017.
56. Gu, J., Du, Z., Zhang, C., Ma, J., Li, B., Yang, S., Liquid-phase exfoliated metallic antimony nanosheets toward high volumetric sodium storage. Adv. Energy Mater. , 7, 1700447, 2017.
57. Tian, W., Zhang, S., Huo, C., Zhu, D., Li, Q., Wang, L., Ren, X., Xie, L., Guo, S., Chu, P.K., Zeng, H., Huo, K., Few-layer antimonene: Anisotropic expansion and reversible crystalline-phase evolution enable large-capacity and long-life Na-ion batteries. ACS Nano , 12, 1887, 2018.
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