Towards state-of-the-art semiconductor/dielectric interface in two-dimensional electronics

doi:10.1016/j.jmst.2025.03.049

Abstract

Abstract: Two-dimensional (2D) semiconductors have emerged as an ideal platform for fundamental research and a promising candidate beyond silicon materials in future transistors due to their ultrathin thickness and excellent electrical properties. However, the practical application of 2D semiconductors still faces significant challenges. The excellent interface quality of traditional silicon-based semiconductor devices is crucial for their outstanding performance, whereas the interface issues in 2D semiconductor/dielectric systems remain unresolved, resulting in device performance far below expectations. Therefore, further study of the interface in 2D semiconductor/dielectric systems and finding appropriate methods to quantify interface quality, as well as interface optimization strategies, are critical for driving the practical application of 2D semiconductors. In this review, we discuss the issues existing at the 2D semiconductor/dielectric interface, quantitative characterization methods and optimization strategies for interface quality. This includes comparing the advantages and disadvantages of traditional characterization methods for silicon-based semiconductors when applied to 2D semiconductors, as well as the development of strategies to improve interface quality and enhance the performance of 2D devices. Finally, in the outlook, we outline the development directions for improving the interface quality of 2D semiconductor/dielectric systems.

Key words: Two-dimensional material, Dielectrics, Interface trap density, Defect characterization, Interface optimization

Yongshan Xu, Kailang Liu, Xiong Xiong, Yanqing Wu, Tianyou Zhai. Towards state-of-the-art semiconductor/dielectric interface in two-dimensional electronics[J]. J. Mater. Sci. Technol., 2025, 239: 93-108.

References

[1] W. Cao, H. Bu, M. Vinet, M. Cao, S. Takagi, S. Hwang, T. Ghani, K. Banerjee, Nature 620 (2023) 501-515.
[2] D. Akinwande, C. Huyghebaert, C.H. Wang, M.I. Serna, S. Goossens, L.J. Li, H.P. Wong, F.H.L. Koppens, Nature 573 (2019) 507-518.
[3] Y. Liu, X. Duan, H.J. Shin, S. Park, Y. Huang, X. Duan, Nature 591 (2021) 43-53.
[4] M. Chhowalla, D. Jena, H. Zhang, Nat. Rev. Mater. 1 (2016) 16052.
[5] Q.H. Wang, K. Kalantar-Zadeh, A. Kis, J.N. Coleman, M.S. Strano, Nat. Nan-otechnol. 7 (2012) 699-712.
[6] G. Fiori, F. Bonaccorso, G. Iannaccone, T. Palacios, D. Neumaier, A. Seabaugh, S.K. Banerjee, L. Colombo, Nat. Nanotechnol. 9 (2014) 768-779.
[7] S. Wang, X. Liu, M. Xu, L. Liu, D. Yang, P. Zhou, Nat. Mater. 21 (2022) 1225-1239.
[8] K. Zhu, C. Wen, A.A. Aljarb, F.Xue, X. Xu, V. Tung, X. Zhang, H.N. Alshareef, M. Lanza, Nat. Electron. 4 (2021) 775-785.
[9] S. Das, A. Sebastian, E. Pop, C.J.McClellan, A.D. Franklin, T. Grasser, T. Knobloch, Y. Illarionov, A.V. Penumatcha, J. Appenzeller, Z. Chen, W. Zhu, I. Asselberghs, L.-J. Li, U.E. Avci, N. Bhat, T.D. Anthopoulos, R. Singh, Nat. Elec-tron. 4 (2021) 786-799.
[10] D. Jayachandran, R. Pendurthi, M.U.K. Sadaf, N.U. Sakib, A. Pannone, C. Chen, Y. Han, N. Trainor, S. Kumari, T.V. Mc Knight, J.M. Redwing, Y. Yang, S. Das, Nature 625 (2024) 276-281.
[11] H. Du, X. Lin, Z. Xu, D. Chu, J. Mater. Chem. C 3 (2015) 8760-8775.
[12] R. Quhe, J. Chen, J. Lu, J. Mater. Chem. C 7 (2019) 1604-1611.
[13] J. Ma, X. Chen, Y. Sheng, L. Tong, X. Guo, M. Zhang, C. Luo, L. Zong, Y. Xia, C. Sheng, Y. Wang, S. Gou, X. Wang, X. Wu, P. Zhou, D.W. Zhang, C. Wu, W. Bao, J. Mater. Sci.Technol. 106 (2022) 243-248.
[14] Y. Zhao, M. Gobbi, L.E. Hueso, P. Samori, Chem. Rev. 122 (2022) 50-131.
[15] L. Zhang, J. Dong, F. Ding, Chem. Rev. 121 (2021) 6321-6372.
[16] X. Lin, W. Yang, K.L. Wang, W. Zhao, Nat. Electron. 2 (2019) 274-283.
[17] J. Jiang, L. Xu, C. Qiu, L.-M. Peng, Nature 616 (2023) 470-475.
[18] Y. Liu, X. Duan, Y. Huang, X. Duan, Chem. Soc. Rev. 47 (2018) 6388-6409.
[19] B. Radisavljevic, A. Radenovic, J. Brivio, V. Giacometti, A. Kis, Nat. Nanotech-nol. 6 (2011) 147-150.
[20] P. Yang, S. Li, H. Xie, J. Jin, C. Liu, H. Pan, Y. Ren, W. Jia, Y. Zong, G. Qin, J. Mater. Sci.Technol. 142 (2023) 253-259.
[21] Y. Deng, S. Liu, X. Ma, S. Guo, B. Zhai, Z. Zhang, M. Li, Y. Yu, W. Hu, H. Yang, Y. Kapitonov, J. Han, J. Wu, Y. Li, T. Zhai, Adv. Mater. 36 (2024) 2309940.
[22] P. Yang, L. Zhu, F. Zhou, Y. Zhang, Acc. Mater. Res. 3 (2021) 161-174.
[23] S. Yang, K. Liu, Y. Xu, L. Liu, H. Li, T. Zhai, Adv. Mater. 35 (2023) 2207901.
[24] Y.Y. Illarionov, T. Knobloch, M. Jech, M. Lanza, D. Akinwande, M.I. Vexler, T. Mueller, M.C. Lemme, G. Fiori, F. Schwierz, T. Grasser, Nat. Commun. 11 (2020) 3385.
[25] Y.-C. Lin, R. Torsi, R. Younas, C.L. Hinkle, A.F. Rigosi, H.M. Hill, K. Zhang, S. Huang, C.E. Shuck, C. Chen, Y.-H. Lin, D. Maldonado-Lopez, J.L. Mendoza-Cortes, J. Ferrier, S. Kar, N. Nayir, S. Rajabpour, A.C.T. van Duin, X. Liu, D. Jariwala, J. Jiang, J. Shi, W. Mortelmans, R. Jaramillo, J.M.J. Lopes, R. En-gel-Herbert, A. Trofe, T. Ignatova, S.H. Lee, Z. Mao, L. Damian, Y. Wang, M.A. Steves, K.L. Knappenberger Jr., Z. Wang, S. Law, G. Bepete, D. Zhou, J.-X. Lin, M.S. Scheurer, J. Li, P. Wang, G. Yu, S. Wu, D. Akinwande, J.M. Red-wing, M. Terrones, J.A. Robinson, ACS Nano 17 (2023) 9694-9747.
[26] F. Schwierz, J. Pezoldt, R. Granzner, Nanoscale 7 (2015) 8261-8283.
[27] C.S. Lau, S. Das, I.A. Verzhbitskiy, D. Huang, Y. Zhang, T. Talha-Dean, W. Fu, D. Venkatakrishnarao, K.E. Johnson Goh, ACS Nano 17 (2023) 9870-9905.
[28] C. Luo, T. Xu, Z. Yu, X. Wang, L. Sun, J. Chu, X. Wu, IEEE Trans. Electron. De-vices 70 (2023) 1499-1508.
[29] Y. Shen, Z. Dong, Y. Sun, H. Guo, F. Wu, X. Li, J. Tang, J. Liu, X. Wu, H. Tian, T.L. Ren, Adv. Mater. 34 (2022) 2201916.
[30] F. Qian, X. Bu, J. Wang, J.-Y. Mao, S.-T. Han, Y. Zhou, J. Mater. Chem. C 10 (2022) 17002-17026.
[31] Y.Y. Illarionov, A.G. Banshchikov, D.K. Polyushkin, S. Wachter, T. Knobloch, M. Thesberg, L. Mennel, M. Paur, M. Stöger-Pollach, A. Steiger-Thirsfeld, M.I. Vexler, M. Waltl, N.S. Sokolov, T. Mueller, T. Grasser, Nat. Electron. 2 (2019) 230-235.
[32] J. Liu, Y. Zhou, W. Zhu, Appl. Phys. Lett. 113 (2018) 013103.
[33] T.i.i.s.t. device, Nat.Mater. 11 (2012) 91.
[34] J.E.Hamann-Borrero, S.Macke, W.S. Choi, R. Sutarto, F. He, A. Radi, I. Elfi-mov, R.J. Green, M.W. Haverkort, V.B. Zabolotnyy, H.N. Lee, G.A. Sawatzky, V. Hinkov, npj Quant. Mater. 1 (2016) 16013.
[35] X. Zhang, Y. Zhang, H. Yu, H. Zhao, Z. Cao, Z. Zhang, Y. Zhang, Adv. Mater. 35 (2023) 2207966.
[36] Y. Sheng, L. Zhang, F. Li, X. Chen, Z. Xie, H. Nan, Z. Xu, D.W. Zhang, J. Chen, Y. Pu, S. Xiao, W. Bao, J. Mater. Sci.Technol. 69 (2021) 15-19.
[37] Y. Deng, S. Liu, M. Li, N. Zhang, Y. Feng, J. Han, Y. Kapitonov, Y. Li, T. Zhai, Chip 3 (2024) 100088.
[38] W. Liao, S. Zhao, F. Li, C. Wang, Y. Ge, H. Wang, S. Wang, H. Zhang, Nanoscale Horiz. 5 (2020) 787-807.
[39] J.W. John, A. Mishra, R. Debbarma, I. Verzhbitskiy, K.E.J. Goh, Nanoscale 15 (2023) 16818-16835.
[40] Z. Cheng, H. Zhang, S.T. Le, H. Abuzaid, G. Li, L. Cao, A.V. Davydov, A.D. Franklin, C.A. Richter, ACS Nano 16 (2022) 5316-5324.
[41] X. Liu, M.C. Hersam, Adv. Mater. 30 (2018) 1801586.
[42] Y. Chen, Z. Fan, Z. Zhang, W. Niu, C. Li, N. Yang, B. Chen, H. Zhang, Chem. Rev. 118 (2018) 6409-6455.
[43] J. Zhu, J.H. Park, S.A. Vitale, W. Ge, G.S. Jung, J. Wang, M. Mohamed, T. Zhang, M. Ashok, M. Xue, X. Zheng, Z. Wang, J. Hansryd, A.P. Chandrakasan, J. Kong, T. Palacios, Nat. Nanotechnol. 18 (2023) 456-463.
[44] Z. Wu, Y. Lyu, Y. Zhang, R. Ding, B. Zheng, Z. Yang, S.P. Lau, X.H. Chen, J. Hao, Nat. Mater. 20 (2021) 1203-1209.
[45] P. Zhang, X. Wang, H. Jiang, Y. Zhang, Q. He, K. Si, B. Li, F. Zhao, A. Cui, Y. Wei, L. Liu, H. Que, P. Tang, Z. Hu, W. Zhou, K. Wu, Y. Gong, Nat. Synth. 1 (2022) 864-872.
[46] X. Huang, C. Liu, P. Zhou, npj 2D Mater.Appl. 6 (2022) 51.
[47] T. Schram, S. Sutar, I. Radu, I. Asselberghs, Adv. Mater. 34 (2022) 2109796.
[48] S.B. Mitta, M.S. Choi, A. Nipane, F. Ali, C. Kim, J.T. Teherani, J. Hone, W.J. Yoo, 2D Mater. 8 (2021) 012002.
[49] B. Wang, W. Huang, L. Chi, M. Al-Hashimi, T.J. Marks, A. Facchetti, Chem. Rev. 118 (2018) 5690-5754.
[50] J. Robertson, R.M. Wallace, Mater. Sci. Eng. R 88 (2015) 1-41.
[51] R. Engel-Herbert, Y. Hwang, S. Stemmer, J. Appl. Phys. 108 (2010) 124101.
[52] M. Ohring, L. Kasprzak, in: M. Ohring, L. Kasprzak (Eds.), Reliability and Fail-ure of Electronic Materials and Devices, second ed., Academic Press, Boston, 2015, pp. 327-385.
[53] F.J. Grunthaner, P.J. Grunthaner, R.P. Vasquez, B.F. Lewis, J. Maserjian, A. Mad-hukar, Phys.Rev. Lett. 43 (1979) 1683-1686.
[54] H.H. Wieder, J. Vac. Sci. Technol. B 11 (1993) 1331-1335.
[55] J.R. Schaibley, H. Yu, G. Clark, P. Rivera, J.S. Ross, K.L. Seyler, W. Yao, X. Xu, Nat. Rev. Mater. 1 (2016) 16055.
[56] W. Li, J. Huang, X. Li, S. Zhao, J. Lu, Z.V. Han, H. Wang, Mater. Today Phys. 21 (2021) 100504.
[57] C.N. Lau, M.W. Bockrath, K.F. Mak, F. Zhang, Nature 602 (2022) 41-50.
[58] T. Sun, G. Zhang, D. Xu, X. Lian, H. Li, W. Chen, C. Su, Mater. Today Energy 12 (2019) 215-238.
[59] N. Zhang, F. Wang, P. Li, Y. Liang, H. Luo, D. Ouyang, L. Luo, J. Wu, Y. Zhao, Y. Li, T. Zhai, Mater. Today 69 (2023) 79-87.
[60] W. Feng, W. Zheng, W. Cao, P. Hu, Adv. Mater. 26 (2014) 6587-6593.
[61] X. Song, J. Hu, H. Zeng, J. Mater. Chem. C 1 (2013) 2952-2969.
[62] X. Wang, J.-B. Xu, C.Wang, J. Du, W. Xie, Adv. Mater. 23 (2011) 2464-2468.
[63] Y. Guo, X. Wei, J. Shu, B. Liu, J. Yin, C. Guan, Y. Han, S. Gao, Q. Chen, Appl. Phys. Lett. 106 (2015) 103109.
[64] I. Amit, T.J. Octon, N.J. Townsend, F. Reale, C.D. Wright, C. Mattevi, M.F. Craciun, S. Russo, Adv. Mater. 29 (2017) 1605598.
[65] W. Zhou, S. Zhang, H. Zeng, Nat. Electron. 5 (2022) 199-200.
[66] K. Liu, B. Jin, W. Han, X. Chen, P. Gong, L. Huang, Y. Zhao, L. Li, S. Yang, X. Hu, J. Duan, L. Liu, F. Wang, F. Zhuge, T. Zhai, Nat. Electron. 4 (2021) 906-913.
[67] T. Li, T. Tu, Y. Sun, H. Fu, J. Yu, L. Xing, Z. Wang, H. Wang, R. Jia, J. Wu, C. Tan, Y. Liang, Y. Zhang, C. Zhang, Y. Dai, C. Qiu, M. Li, R. Huang, L. Jiao, K. Lai, B. Yan, P. Gao, H. Peng, Nat. Electron. 3 (2020) 473-478.
[68] W. Li, J. Zhou, S. Cai, Z. Yu, J. Zhang, N. Fang, T. Li, Y. Wu, T. Chen, X. Xie, H. Ma, K. Yan, N. Dai, X. Wu, H. Zhao, Z. Wang, D. He, L. Pan, Y. Shi, P. Wang, W. Chen, K. Nagashio, X. Duan, X. Wang, Nat. Electron. 2 (2019) 563-571.
[69] Y. Xu, T. Liu, K. Liu, Y. Zhao, L. Liu, P. Li, A. Nie, L. Liu, J. Yu, X. Feng, F. Zhuge, H. Li, X. Wang, T. Zhai, Nat. Mater. 22 (2023) 1078-1084.
[70] L. Tong, X. Guo, Z. Shen, L. Zhou, J. Ma, X. Chen, H. Chen, Y. Xia, C. Sheng, S. Gou, D. Wang, X. Wang, X. Dong, Y. Zhu, X. Zhang, D.W. Zhang, S. Dai, X. Li, P. Zhou, Y. Wang, W. Bao, J. Mater. Sci.Technol. 133 (2023) 230-237.
[71] B.E. Deal, IEEE Trans. Electron. Devices 27 (1980) 606-608.
[72] D.M. Fleetwood, IEEE Trans. Nucl. Sci. 39 (1992) 269-271.
[73] D.M. Fleetwood, Fast and slow border traps in MOS devices, in: Proceedings of the Third European Conference on Radiation and its Effects on Components and Systems, Arcachon, France, September, 18-22, 1995, pp. 1-8.
[74] D.M. Fleetwood, P.S. Winokur, R.A.Reber Jr., T.L. Meisenheimer, J.R. Schwank, M.R. Shaneyfelt, L.C. Riewe, J. Appl. Phys. 73 (1993) 5058-5074.
[75] T. Boutchacha, G. Ghibaudo, G. Guégan, T. Skotnicki, Microelectron. Reliab. 37 (1997) 1599-1602.
[76] S. You, H. Kim, N. Kim, Curr. Appl. Phys. 46 (2023) 34-39.
[77] J. Hong, Z. Hu, M. Probert, K. Li, D. Lv, X. Yang, L. Gu, N. Mao, Q. Feng, L. Xie, J. Zhang, D. Wu, Z. Zhang, C. Jin, W. Ji, X. Zhang, J. Yuan, Z. Zhang, Nat. Com-mun. 6 (2015) 6293.
[78] H. Qiu, T. Xu, Z. Wang, W. Ren, H. Nan, Z. Ni, Q. Chen, S. Yuan, F. Miao, F. Song, G. Long, Y. Shi, L. Sun, J. Wang, X. Wang, Nat. Commun. 4 (2013) 2642.
[79] S.H. Song, M.-K. Joo, M.Neumann, H. Kim, Y.H. Lee, Nat. Commun. 8 (2017) 2121.
[80] N. Fang, K. Nagashio, ACS Appl. Mater. Interfaces 10 (2018) 32355-32364.
[81] N. Fang, K. Nagashio, J. Phys. D 51 (2018) 065110.
[82] B.G. Shin, G.H. Han, S.J. Yun, H.M. Oh, J.J. Bae, Y.J. Song, C.-Y. Park, Y.H. Lee, Adv. Mater. 28 (2016) 9378-9384.
[83] Y. Pan, K. Jia, K. Huang, Z. Wu, G. Bai, J. Yu, Z. Zhang, Q. Zhang, H. Yin, Nan-otechnology 30 (2019) 095202.
[84] B. Chamlagain, Q. Cui, S. Paudel, M.M.-C.Cheng, P.-Y. Chen, Z. Zhou, 2D Mater. 4 (2017) 031002.
[85] Q.A. Vu, S. Fan, S.H. Lee, M.-K. Joo, W.J. Yu, Y.H. Lee, 2D Mater. 5 (2018) 031001.
[86] H. Liu, M. Si, S. Najmaei, A.T. Neal, Y. Du, P.M. Ajayan, J. Lou, P.D. Ye, Nano Lett. 13 (2013) 2640-2646.
[87] P. Xia, X. Feng, R.J. Ng, S. Wang, D. Chi, C. Li, Z. He, X. Liu, K.-W. Ang, Sci.Rep. 7 (2017) 40669.
[88] J. Na, M.-K. Joo, M. Shin, J. Huh, J.-S. Kim, M. Piao, J.-E. Jin, H.-K. Jang, H.J. Choi, J.H. Shim, G.-T. Kim, Nanoscale 6 (2014) 433-441.
[89] H. Liu, P.D. Ye, IEEE Electron. Device Lett. 33 (2012) 546-548.
[90] J.-K. Huang, Y. Wan, J. Shi, J. Zhang, Z. Wang, W. Wang, N. Yang, Y. Liu, C.-H. Lin, X. Guan, L. Hu, Z.-L. Yang, B.-C. Huang, Y.-P. Chiu, J. Yang, V. Tung, D. Wang, K. Kalantar-Zadeh, T. Wu, X. Zu, L. Qiao, L.-J. Li, S. Li, Nature 605 (2022) 262-267.
[91] D. Zeng, Z. Zhang, Z. Xue, M. Zhang, P.K. Chu, Y. Mei, Z. Tian, Z. Di, Nature 632 (2024) 788-794.
[92] C.-Y. Zhu, M.-R. Zhang, Q. Chen, L.-Q. Yue, R. Song, C. Wang, H.-Z. Li, F. Zhou, Y. Li, W. Zhao, L. Zhen, M. Si, J. Li, J. Wang, Y. Chai, C.-Y. Xu, J.-K. Qin, Nat. Electron. 7 (2024) 1137-1146.
[93] K. Yi, W. Qin, Y. Huang, Y. Wu, S. Feng, Q. Fang, X. Cao, Y. Deng, C. Zhu, X. Zou, K.-W. Ang, T.Li, X. Wang, J. Lou, K. Lai, Z. Hu, Z. Zhang, Y. Dong, K. Kalan-tar-Zadeh, Z. Liu, Nat. Electron. 7 (2024) 1126-1136.
[94] L. Yin, R. Cheng, X. Wan, J. Ding, J. Jia, Y. Wen, X. Liu, Y. Guo, J. He, Nat. Mater. 24 (2025) 197-204.
[95] C. Ding, H. Jia, Q. Sun, Z. Yao, H. Yang, W. Liu, X. Pang, S. Li, C. Liu, T. Minari, J. Chen, X. Liu, Y. Song, J. Mater. Chem. C 9 (2021) 7829-7851.
[96] Z. Yang, J. Hao, J. Mater. Chem. C 4 (2016) 8859-8878.
[97] Y. Zhao, Y. Song, Z. Hu, W. Wang, Z. Chang, Y. Zhang, Q. Lu, H. Wu, J. Liao, W. Zou, X. Gao, K. Jia, Zhuo, J. Hu, Q.Xie, R. Zhang, X. Wang, L. Sun, F. Li, L. Zheng, M. Wang, J. Yang, B. Mao, T. Fang, F. Wang, H. Zhong, W. Liu, R. Yan, J. Yin, Y. Zhang, Y. Wei, H. Peng, L. Lin, Z. Liu, Nat. Commun. 13 (2022) 4409.
[98] L. Zhu, T. Yang, Y. Zhong, Z. Jin, X. Zhang, C. Hu, Z. Wang, Z. Wu, Z. Zhang, Z. Shi, J. Kong, X. Zhang, L. Zhou, Nano Lett. 22 (2022) 2342-2349.
[99] R. Decker, Y. Wang, V.W. Brar, W. Regan, H.-Z. Tsai, Q.Wu, W. Gannett, A. Zettl, M.F. Crommie, Nano Lett. 11 (2011) 2291-2295.
[100] L.T. Zhuravlev, Colloid Surf. A 173 (2000) 1-38.
[101] S.-L. Li, K.Wakabayashi, Y. Xu, S. Nakaharai, K. Komatsu, W.-W. Li, Y.-F. Lin, A. Aparecido-Ferreira, K. Tsukagoshi, Nano Lett. 13 (2013) 3546-3552.
[102] H. Liu, A.T. Neal, Z. Zhu, Z. Luo, X. Xu, D. Tománek, P.D. Ye, ACS Nano 8 (2014) 4033-4041.
[103] Y. Jeong, J.H. Park, J. Ahn, J.Y. Lim, E. Kim, S. Im, Adv. Mater. Interfaces 5 (2018) 1800812.
[104] P. Zhao, A. Khosravi, A. Azcatl, P. Bolshakov, G. Mirabelli, E. Caruso, C.L. Hinkle, P.K. Hurley, R.M. Wallace, C.D. Young, 2D Mater. 5 (2018) 031002.
[105] Y.G. Chang, H.S. Lee, K. Choi, S. Im, IEEE Electron. Device Lett. 33 (2012) 1015-1017.
[106] X. Huang, Y. Yao, S. Peng, D. Zhang, J. Shi, Z. Jin, Materials 13 (2020) 2896.
[107] H. Ji, M.-K. Joo, H. Yi, H. Choi, H.Z. Gul, M.K. Ghimire, S.C. Lim, ACS Appl. Mater. Interfaces 9 (2017) 29185-29192.
[108] W. Cao, J. Kang, W. Liu, K. Banerjee, IEEE Trans. Electron. Devices 61 (2014) 4282-4290.
[109] Y.Y. Illarionov, G. Rzepa, M. Waltl, T. Knobloch, A. Grill, M.M. Furchi, T. Mueller, T. Grasser, 2D Mater. 3 (2016) 035004.
[110] D.J. Late, B. Liu, H.S.S.R. Matte, V.P. Dravid, C.N.R. Rao, ACS Nano 6 (2012) 5635-5641.
[111] J. Shu, G. Wu, Y. Guo, B. Liu, X. Wei, Q. Chen, Nanoscale 8 (2016) 3049-3056.
[112] A. Sebastian, R. Pendurthi, T.H. Choudhury, J.M. Redwing, S. Das, Nat. Com-mun. 12 (2021) 693.
[113] X. Zou, J. Wang, C.H. Chiu, Y. Wu, X. Xiao, C. Jiang, W.W. Wu, L. Mai, T. Chen, J. Li, J.C. Ho, L. Liao, Adv. Mater. 26 (2014) 6255-6261.
[114] J.-S. Lyu, ETRI J. 15 (1993) 11-25.
[115] S.M. Sze, Y. Li, K.K. Ng, Physics of Semiconductor Devices, John Wiley & Sons, London, 2021.
[116] J. Wang, S. Li, X. Zou, J. Ho, L. Liao, X. Xiao, C. Jiang, W. Hu, J. Wang, J. Li, Small 11 (2015) 5932-5938.
[117] C.Y. Zhu, J.K. Qin, P.Y. Huang, H.L. Sun, N.F. Sun, Y.L. Shi, L. Zhen, C.Y. Xu, Small 18 (2022) 2104401.
[118] J. Chen, Z. Liu, X. Dong, Z. Gao, Y. Lin, Y. He, Y. Duan, T. Cheng, Z. Zhou, H. Fu, F. Luo, J. Wu, Nat. Commun. 14 (2023) 4406.
[119] S.B. Desai, S.R. Madhvapathy, A.B. Sachid, J.P. Llinas, Q. Wang, G.H. Ahn, G. Pit-ner, M.J. Kim, J. Bokor, C. Hu, H.-S.P. Wong, A. Javey, Science 354 (2016) 99-102.
[120] N. Fang, S. Toyoda, T. Taniguchi, K. Watanabe, K. Nagashio, Adv. Funct. Mater. 29 (2019) 1904465.
[121] P. Singh, N. Singh, J. Miao, W.T. Park, D.L. Kwong, IEEE Electron. Device Lett. 32 (2011) 1752-1754.
[122] M. Haartman, M. Östling, Cham, 2007.
[123] N. Kaushik, S. Ghosh, S. Lodha, IEEE Trans. Electron. Devices 65 (2018) 4135-4140.
[124] J. Na, Y.T. Lee, J.A. Lim, D.K. Hwang, G.-T. Kim, W.K. Choi, Y.-W. Song, ACS Nano 8 (2014) 11753-11762.
[125] H. Ji, G. Lee, M.-K. Joo, Y.Yun, H. Yi, J.-H. Park, D. Suh, S.C. Lim, Appl. Phys. Lett. 110 (2017) 183501.
[126] G. Ghibaudo, O. Roux, C. Nguyen-Duc, F. Balestra, J. Brini, Phys. Status Solidi A 124 (1991) 571-581.
[127] M.-K. Joo, B.H. Moon, H. Ji, G.H. Han, H. Kim, G. Lee, S.C. Lim, D. Suh, Y.H. Lee, ACS Appl. Mater. Interfaces 9 (2017) 5006-5013.
[128] C.-K. Kim, C.H. Yu, J. Hur, H. Bae, S.-B. Jeon, H. Park, Y.M. Kim, K.C. Choi, Y.-K. Choi, S.-Y. Choi, 2D Mater. 3 (2016) 015007.
[129] E.H. Nicollian, J.R. Brews, MOS (Metal Oxide Semiconductor) Physics and Technology, John Wiley & Sons, London, 2002.
[130] J.V. Li, G. Ferrari, Capacitance Spectroscopy of Semiconductors, CRC Press, Boca Raton, 2018.
[131] A. Gaur, T. Agarwal, I. Asselberghs, I. Radu, M. Heyns, D. Lin, D Mater. 7 (2020) 035018.
[132] R.V. Galatage, D.M. Zhernokletov, H. Dong, B. Brennan, C.L. Hinkle, R.M.Wal-lace, E.M. Vogel, J. Appl. Phys. 116 (2014) 014504.
[133] J.R. Brews, E.H. Nicollian, Solid-State Electron. 27 (1984) 963-975.
[134] A.V. Penumatcha, S. Swandono, J.A. Cooper, IEEE Trans. Electron. Devices 60 (2013) 923-926.
[135] A. Gaur, D. Chiappe, D. Lin, D. Cott, I. Asselberghs, M. Heyns, I. Radu, 2D Mater. 6 (2019) 035035.
[136] C. Kim, I. Moon, D. Lee, M.S. Choi, F. Ahmed, S. Nam, Y. Cho, H.J. Shin, S. Park, W.J. Yoo, ACS Nano 11 (2017) 1588-1596.
[137] D. Somvanshi, S. Kallatt, C. Venkatesh, S. Nair, G. Gupta, J.K. Anthony, D. Kar-makar, K. Majumdar, Phys. Rev. B 96 (2017) 205423.
[138] R.-S. Chen, G. Ding, Y. Zhou, S.-T. Han, J. Mater. Chem. C 9 (2021) 11407-11427.
[139] J. Lee, B.-L. Lee, J.H. Kim, S. Lee, S. Im, Phys. Rev. B 85 (2012) 045206.
[140] C.R. Kagan, P. Andry, Thin-Film Transistors, CRC Press, Boca Raton, 2003.
[141] K. Lee, G. Ko, G.H. Lee, G.b. Han, M.M. Sung, T.W. Ha, J.H. Kim, S. Im, Appl. Phys. Lett. 97 (2010) 082110.
[142] W. Eccleston, IEEE Trans. Electron. Devices 53 (2006) 474-480.
[143] T.C. Fung, C.S. Chuang, K. Nomura, H.P.D. Shieh, H. Hosono, J. Kanicki, J. Soc. Inf. Display 9 (2008) 21-29.
[144] K. Choi, S.R.A. Raza, H.S. Lee, P.J. Jeon, A. Pezeshki, S.-W. Min, J.S. Kim, W. Yoon, S.-Y. Ju, K. Lee, S. Im, Nanoscale 7 (2015) 5617-5623.
[145] B. Ahn, Y. Kim, M. Kim, H.M. Yu, J. Ahn, E. Sim, H. Ji, H.Z. Gul, K.S. Kim, K. Ihm, H. Lee, E.K. Kim, S.C. Lim, Nano Lett. 23 (2023) 7927-7933.
[146] Y. Hu, P.S. Yip, C.W. Tang, K.M. Lau, Q. Li, Semicond. Sci. Technol. 33 (2018) 045005.
[147] Y. Yang, T. Yang, T. Song, J. Zhou, J. Chai, L.M. Wong, H. Zhang, W. Zhu, S. Wang, M. Yang, Nano Res. 15 (2022) 4646-4652.
[148] C.R. Dean, A.F. Young, I. Meric, C. Lee, L. Wang, S. Sorgenfrei, K. Watan-abe, T.Taniguchi, P. Kim, K.L. Shepard, J. Hone, Nat. Nanotechnol. 5 (2010) 722-726.
[149] S. Li, X. Liu, H. Yang, H. Zhu, X. Fang, Nat. Electron. 7 (2024) 216-224.
[150] S. Zhang, Y. Qiu, H. Yang, D. Wang, Y. Hu, X. Lu, Z. Li, P. Hu, J. Mater. Chem. C 8 (2020) 6701-6709.
[151] A. Newaz, Y.S. Puzyrev, B. Wang, S.T. Pantelides, K.I. Bolotin, Nat. Commun. 3 (2012) 734.
[152] X. Cui, G.H. Lee, Y.D. Kim, G. Arefe, P.Y. Huang, C.H. Lee, D.A. Chenet, X. Zhang, L. Wang, F. Ye, F. Pizzocchero, B.S. Jessen, K. Watanabe, T. Taniguchi, D.A. Muller, T. Low, P. Kim, J. Hone, Nat. Nanotechnol. 10 (2015) 534-540.
[153] A.K. Geim, I.V. Grigorieva, Nature 499 (2013) 419-425.
[154] W. Hu, J. Yang, J. Mater. Chem. C 5 (2017) 12289-12297.
[155] K.Y. Ma, L. Zhang, S. Jin, Y. Wang, S.I. Yoon, H. Hwang, J. Oh, D.S. Jeong, M. Wang, S. Chatterjee, G. Kim, A.R. Jang, J. Yang, S. Ryu, H.Y. Jeong, R.S. Ruoff, M. Chhowalla, F. Ding, H.S. Shin, Nature 606 (2022) 88-93.
[156] T.A. Chen, C.P. Chuu, C.C. Tseng, C.K. Wen, H.P. Wong, S. Pan, R. Li, T.A. Chao, W.C. Chueh, Y. Zhang, Q. Fu, B.I. Yakobson, W.H. Chang, L.J. Li, Nature 579 (2020) 219-223.
[157] S. Moon, J. Kim, J. Park, S. Im, J. Kim, I. Hwang, J.K. Kim, Adv. Mater. 35 (2023) 2204161.
[158] K. Zhang, Y. Feng, F. Wang, Z. Yang, J. Wang, J. Mater. Chem. C 5 (2017) 11992-12022.
[159] X.-F. Jiang, Q.Weng, X.-B. Wang, X. Li, J. Zhang, D. Golberg, Y. Bando, J. Mater. Sci. Technol. 31 (2015) 589-598.
[160] L. Wang, I. Meric, P.Y. Huang, Q. Gao, Y. Gao, H. Tran, T. Taniguchi, K. Watan-abe, L.M. Campos, D.A. Muller, J. Guo, P. Kim, J. Hone, K.L. Shepard, C.R. Dean, Science 342 (2013) 614-617.
[161] F. Cadiz, E. Courtade, C. Robert, G. Wang, Y. Shen, H. Cai, T. Taniguchi, K. Watanabe, H. Carrere, D. Lagarde, M. Manca, T. Amand, P. Renucci, S. Ton-gay, X. Marie, B. Urbaszek, Phys. Rev. X 7 (2017) 021026.
[162] T. Knobloch, Y.Y. Illarionov, F. Ducry, C. Schleich, S. Wachter, K. Watanabe, T. Taniguchi, T. Mueller, M. Waltl, M. Lanza, M.I. Vexler, M. Luisier, T. Grasser, Nat. Electron. 4 (2021) 98-108.
[163] L. Britnell, R.V. Gorbachev, R. Jalil, B.D. Belle, F. Schedin, M.I. Katsnelson, L. Eaves, S.V. Morozov, A.S. Mayorov, N.M.R.Peres, A.H. Castro Neto, J.Leist, A.K. Geim, L.A. Ponomarenko, K.S. Novoselov, Nano Lett. 12 (2012) 1707-1710.
[164] D. Wong, J. Velasco Jr, L. Ju, J. Lee, S. Kahn, H.-Z. Tsai, C.Germany, T. Taniguchi, K. Watanabe, A. Zettl, Nat. Nanotechnol. 10 (2015) 949-953.
[165] F. Xu, Z. Wu, G. Liu, F. Chen, J. Guo, H. Zhou, J. Huang, Z. Zhang, L. Fei, X. Liao, Y. Zhou, ACS Appl. Mater. Interfaces 14 (2022) 25920-25927.
[166] J. Hu, A. Zheng, E. Pan, J. Chen, R. Bian, J. Li, Q. Liu, G. Cao, P. Meng, X. Jian, A. Molnar, Y. Vysochanskii, F. Liu, J. Mater. Chem. C 10 (2022) 13753-13761.
[167] B.A. Holler, K. Crowley, M.-H. Berger, X.P.A. Gao, Adv. Electron. Mater. 6 (2020) 2000635.
[168] Y. Nalawade, J. Pepper, A. Harvey, A. Griffin, D. Caffrey, A.G. Kelly, J.N.Cole-man, ACS Appl.Electron. Mater. 2 (2020) 3233-3241.
[169] W. Zhu, Q. Cui, M.L. Adam, Z. Liu, L. Zhang, Z. Dai, Y. Yin, S. Chen, L. Song, 2D Mater. 8 (2021) 025010.
[170]. L. Li, W. Dang, X. Zhu, H. Lan, Y. Ding, Z.-A. Li, L. Wang, Y. Yang, L. Fu, F. Miao, M. Zeng, Adv. Mater. (2023), doi: 10.1002/adma.202309296
[171] A. Koma, K. Saiki, Y. Sato, Appl. Surf. Sci.41-42 (1990) 451-456.
[172] B.W. Li, M. Osada, Y.H. Kim, Y. Ebina, K. Akatsuka, T. Sasaki, J. Am. Chem.Soc. 139 (2017) 10868-10874.
[173] W. Han, P. Huang, L. Li, F. Wang, P. Luo, K. Liu, X. Zhou, H. Li, X. Zhang, Y. Cui, T. Zhai, Nat. Commun. 10 (2019) 4728.
[174] K.A. Messalea, N. Syed, A. Zavabeti, M. Mohiuddin, A. Jannat, P. Aukarasereenont, C.K. Nguyen, M.X. Low, S. Walia, B. Haas, C.T. Koch, N. Mahmood, K. Khoshmanesh, K. Kalantar-Zadeh, T. Daeneke, ACS Nano 15 (2021) 16067-16075.
[175] M.J. Mleczko, C. Zhang, H.R. Lee, H.-H. Kuo, B.Magyari-Köpe, R.G. Moore, Z.-X. Shen, I.R. Fisher, Y. Nishi, E. Pop, Sci. Adv. 3 (2017) e1700481.
[176] P. Luo, C. Liu, J. Lin, X. Duan, W. Zhang, C. Ma, Y. Lv, X. Zou, Y. Liu, F. Schwierz, W. Qin, L. Liao, J. He, X. Liu, Nat. Electron. 5 (2022) 849-858.
[177] Y. Zhang, J. Yu, R. Zhu, M. Wang, C. Tan, T. Tu, X. Zhou, C. Zhang, M. Yu, X. Gao, Y. Wang, H. Liu, P. Gao, K. Lai, H. Peng, Nat. Electron. 5 (2022) 643-649.
[178] Z. Lu, Y. Chen, W. Dang, L. Kong, Q. Tao, L. Ma, D. Lu, L. Liu, W. Li, Z. Li, X. Liu, Y. Wang, X. Duan, L. Liao, Y. Liu, Nat. Commun. 14 (2023) 2340.
[179] C. Zhang, T. Tu, J. Wang, Y. Zhu, C. Tan, L. Chen, M. Wu, R. Zhu, Y. Liu, H. Fu, J. Yu, Y. Zhang, X. Cong, X. Zhou, J. Zhao, T. Li, Z. Liao, X. Wu, K. Lai, B. Yan, P. Gao, Q. Huang, H. Xu, H. Hu, H. Liu, J. Yin, H. Peng, Nat. Mater. 22 (2023) 832-837.
[180] B.A. Holler, K. Crowley, M.-H. Berger, X.P.A. Gao, Adv. Electron. Mater. 6 (2020) 2000635.
[181] J. Chen, Z. Liu, Z. Lv, Y. Hou, X. Chen, L. Lan, T.-H. Cheng, L.Zhang, Y. Duan, H. Fu, X. Fu, F. Luo, J. Wu, J. Am. Chem. Soc. 146 (2024) 11523-11531.
[182] W. Xu, J. Jiang, Y. Chen, N. Tang, C. Jiang, S. Yang, Nat. Commun. 15 (2024) 9469.
[183] H. Uchiyama, K. Maruyama, E. Chen, T. Nishimura, K. Nagashio, Small 19 (2023) 2207394.
[184] J.H. Park, S. Fathipour, I. Kwak, K. Sardashti, C.F. Ahles, S.F. Wolf, M. Edmonds, S. Vishwanath, H.G. Xing, S.K. Fullerton-Shirey, A. Seabaugh, A.C. Kummel, ACS Nano 10 (2016) 6888-6896.