-
As Moore's Law faces limitations in scaling device physical dimensions and reducing computational power consumption, traditional silicon-based integrated circuit (IC) technologies, after half a century of success, are encountering unprecedented challenges. These limitations are especially apparent in emerging fields such as artificial intelligence, big data processing, and high-performance computing, where the demand for computational power and energy efficiency is growing. Therefore, the exploration of novel materials and hardware architectures is crucial to overcoming these challenges. Two-dimensional (2D) materials, with their unique physical properties such as the absence of dangling bonds, high carrier mobility, tunable band gaps, and high photonic responses, have emerged as ideal candidates for next-generation electronic devices and integrated circuits (ICs). Notably, 2D materials such as graphene, transition metal dichalcogenides (TMDs), and hexagonal boron nitride (h-BN) have demonstrated immense potential in electronics, optoelectronics, and flexible sensing applications.
This paper provides a comprehensive review of recent advancements in the application of 2D materials in integrated circuits, analyzing the challenges and solutions related to large-scale integration, device design, functional circuit modules, and three-dimensional integration. Through a detailed examination of the basic properties of 2D materials, their constituent functional devices, and multifunctional integrated circuits, this paper presents a series of innovative ideas and methodologies, showcasing the promising application prospects of 2D materials in future ICs.
The research methodology involves a detailed analysis of the physical properties of common 2D materials (such as graphene, TMDs, and h-BN) and explores typical application cases. It discusses how to utilize the excellent properties of these materials to fabricate high-performance single-function devices, integrated circuit modules, and 3D integrated chips. In particular, the paper focuses on solving the challenges related to large-scale growth, device integration, and interface engineering of 2D materials. By comparing the performance and applications of various materials, it reveals the unique advantages of 2D materials in the semiconductor industry and their potential in IC design.
Despite the outstanding performance of 2D materials in laboratory environments, significant challenges remain in practical applications, especially in large-scale production, device integration, and three-dimensional integration. Achieving high-quality, large-area growth of 2D materials, reducing interface defects, and improving device stability and reliability are still core issues that need to be addressed by both the research and industrial communities. However, with continuous advancements in 2D material fabrication techniques and optimization of integration processes, these challenges are gradually being overcome, and the application prospects of 2D materials are expanding.-
Keywords:
- Two-dimensional materials /
- basic functional devices /
- logic circuits /
- large-scale integration
-
[1] Zidan M A, Strachan J P, Lu W D 2018 Nat. Electron. 1 22
[2] Kim K S, Kwon J, Ryu H, Kim C, Kim H, Lee E-K, Lee D, Seo S, Han N M, Suh J M, Kim J, Song M-K, Lee S, Seol M, Kim J 2024 Nat. Nanotechnol. 19 895
[3] Thompson N C, Spanuth S 2021 Commun. ACM 64 64
[4] Kudithipudi D, Schuman C, Vineyard C M, Pandit T, Merkel C, Kubendran R, Aimone J B, Orchard G, Mayr C, Benosman R, Hays J, Young C, Bartolozzi C, Majumdar A, Cardwell S G, Payvand M, Buckley S, Kulkarni S, Gonzalez H A, Cauwenberghs G, Thakur C S, Subramoney A, Furber S 2025 Nature 637 801
[5] Mehonic A, Kenyon A J 2022 Nature 604 255
[6] Aslam Mohd, Raman A P S, Rana I, Singh M B, Ranjan K R, Verma C, AlFantazi A, Singh P, Kumari K 2025 Coordin. Chem. Rev. 543 216890
[7] Aftab S, Hegazy H H 2023 Small 19 2205778
[8] Naclerio A E, Kidambi P R 2023 Adv. Mater. 35 2207374
[9] Qiu H, Yu Z, Zhao T, Zhang Q, Xu M, Li P, Li T, Bao W, Chai Y, Chen S, Chen Y, Cheng H-M, Dai D, Di Z, Dong Z, Duan X, Feng Y, Fu Y, Guo J, Guo P, Hao Y, He J, He X, Hu J, Hu W, Hu Z, Huang X, Huang Z, Imran A, Kong Z, Li J, Li Q, Li W, Liao L, Liu B, Liu C, Liu C, Liu G, Liu K, Liu L, Liu S, Liu Y, Lu D, Ma L, Miao F, Ni Z, Ning J, Pan A, Ren T-L, Shu H, Sun L, Sun Y, Tao Q, Tian Z-A, Wang D, Wang H, Wang H, Wang J, Wang J, Wang W, Wang X, Wang Y, Wang Y, Wang Z, Wen Y, Wu H, Wu H, Wu J, Wu Y, Xia L, Xiang B, Xing L, Xiong Q, Xiong X, Xu J, Xu T, Xu Y, Yang L, Yang Y, Yang Y, Ye L, Ye Y, Yu B, Yu T, Zeng H, Zhang G, Zhang H, Zhang J, Zhang K, Zhang T, Zhang X, Zhang Y, Zhao C, Zhao Y, Zheng T, Zhou P, Zhou S, Zhu Y, Yang D, Shi Y, Wang H, Wang X 2024 Sci. China Inf. Sci. 67 160400
[10] Wu Y, Wu Y, Li H, Liu S 2025 Chip 100161
[11] Zhang Q, Zhao Z, Tao L 2025 Mater. Today Phys. 53 101710
[12] Xie P, Li D, Wang W, Ho J C 2025 Small 2503717
[13] Goel N, Kumar R 2025 Nano-Micro Lett. 17 197
[14] Zhang L, Dong J, Ding F 2021 Chem. Rev. 121 6321
[15] Knobloch T, Selberherr S, Grasser T 2022 Nanomaterials 12 3548
[16] Chhowalla M, Jena D, Zhang H 2016 Nat. Rev. Mater. 1 16052
[17] Zeng S F, Liu C S, Zhou P 2024 Nat. Rev. Electr. Eng. 1 335
[18] Jiang J K, Parto K, Cao W, Banerjee K 2019 IEEE J. Electron Devices Soc. 7 878
[19] Chiu M H, Zhang C, Shiu H W, Chuu C P, Chen C H, Chang C Y S, Chen C H, Chou M Y, Shih C K, Li L J 2015 Nat. Commun. 6 7666
[20] Wang Y, Liu E, Liu H, Pan Y, Zhang L, Zeng J, Fu Y, Wang M, Xu K, Huang Z, Wang Z, Lu H Z, Xing D, Wang B, Wan X, Miao F 2016 Nat. Commun. 7 13142
[21] Jayachandran D, Sakib N U, Das S 2024 Nat. Rev. Electr. Eng. 1 300
[22] Novoselov K S, Geim A K, Morozov S V, Jiang D, Katsnelson M I, Grigorieva I V, Dubonos S V, Firsov A A 2005 Nature 438 197
[23] Avouris P 2010 Nano Lett. 10 4285
[24] Novoselov K S, Fal′ko V I, Colombo L, Gellert P R, Schwab M G, Kim K 2012 Nature 490 192
[25] Lee C G, Wei X D, Kysar J W, Hone J 2008 Science 321 385
[26] Hwang E H, Sarma S D 2008 Phys. Rev. B 77 115449
[27] Nair R R, Blake P, Grigorenko A N, Novoselov K S, Booth T J, Stauber T, Peres N M R, Geim A K 2008 Science 320 1308
[28] Liu C S, Chen H W, Wang S Y, Liu Q, Jiang Y G, Zhang D W, Liu M, Zhou P 2020 Nat. Nanotechnol. 15 545
[29] Manzeli S, Ovchinnikov D, Pasquier D, Yazyev O V, Kis A 2017 Nat. Rev. Mater. 2 17033
[30] Wang Q H, Kalantar-Zadeh K, Kis A, Coleman J N, Strano M S 2012 Nat. Nanotechnol. 7 699
[31] Han G H, Duong D L, Keum D H, Yun S J, Lee Y H 2018 Chem. Rev. 118 6297
[32] Dai C H, Liu Y Q, Wei D C 2022 Chem. Rev. 122 10319
[33] Mak K F, Shan J 2016 Nat. Photon. 10 216
[34] Han S W, Kwon H, Kim S K, Ryu S, Yun W S, Kim D H, Hwang J H, Kang J S, Baik J, Shin H J, Hong S C 2011 Phys. Rev. B 84 045409
[35] Jaikissoon M, Koroglu C, Yang J A, Neilson K, Saraswat K C, Pop E 2024 Nat. Electron. 7 885
[36] Oviroh P O, Jen T C, Ren J W, Duin A V 2023 npj Clean Water 6 14
[37] Roy S, Zhang X, Puthirath A B, Meiyazhagan A, Bhattacharyya S, Rahman M M, Babu G, Susarla S, Saju S K, Tran M K, Sassi L M, Saadi M A S R, Lai J W, Sahin O, Sajadi S M, Dharmarajan B, Salpekar D, Chakingal N, Baburaj A, Shuai X T, Adumbumkulath A, Miller K A, Gayle J M, Ajnsztajn A, Prasankumar T, Harikrishnan V V J, Ojha V, Kannan H, Khater A Z, Zhu Z W, Iyengar S A, Autreto P A D S, Oliveira E F, Gao G H, Birdwell A G, Neupane M R, Ivanov T G, Taha-Tijerina J, Yadav R M, Arepalli S, Vajtai R, Ajayan P M 2021 Adv. Mater. 33 2101589
[38] Chen Z, Zhang J, Wang S, Wong C-P 2024 Fundamental Research 4 1455
[39] Li L, Yu Y, Ye G J, Ge Q, Ou X, Wu H, Feng D, Chen X H, Zhang Y 2024 Nat. Nanotechnol. 9 372
[40] Huang X, Guan J, Lin Z, Liu B, Xing S, Wang W, Guo J 2017 Nano Lett. 17 4619
[41] Lee J, Kwon J, Seo D, Na J, Park S, Lee H J, Lee S W, Lee K Y, Park T E, Choi H J 2019 ACS Appl. Mater. Interfaces 11 42512
[42] Fu L, Wang F, Wu B, Wu N, Huang W, Wang H, Jin C, Zhuang L, He J, Fu L, Liu Y 2017 Adv. Mater. 29 1700439
[43] Liu F, Shimotani H, Shang H, Kanagasekaran T, Zólyomi V, Drummond N, Fal’ko V I, Tanigaki K 2014 ACS Nano 8 752
[44] Yang H W, Hsieh H F, Chen R S, Ho C H, Lee K Y, Chao L C 2018 ACS Appl. Mater. Interfaces 10 5740
[45] Al Balushi, Z Y, Wang K, Ghosh R K, Vilá R A, Eichfeld S M, Caldwell J D, Qin X, Lin Y C, DeSario P A, Stone G, Subramanian S, Paul D F, Wallace R M, Datta S, Redwing J M, Robinson J A 2016 Nat. Mater. 15 1166
[46] Balendhran S, Deng J, Ou J Z, Walia S, Scott J, Tang J, Wang K L, Field M R, Russo S, Zhuiykov S, Strano M S, Medhekar N, Sriram S, Bhaskaran M, Kalantar-zadeh K 2012 Adv. Mater. 25 109
[47] Wang B, Luo Y, Liu B, Duan G 2019 ACS Appl. Mater. Interfaces 11 35935
[48] Liu Y, Huang Y, Duan X 2019 Nature 567 323
[49] Kong L, Chen Y, Liu Y 2021 Nano Res. 14 1768
[50] Xue F, Zhang C, Ma Y, Wen Y, He X, Yu B, Zhang X 2022 Adv. Mater. 34 2201880
[51] Zhang J, Liu L, Yang Y, Huang Q, Li D, Zeng D 2021 Phys. Chem. 23 1542
[52] Radisavljevic B, Radenovic A, Brivio J, Giacometti V, Kis A 2011 Nature Nanotech. 6 147
[53] Chen R-S, Ding G, Zhou Y, Han S-T 2021 J. Mater. Chem. C 9 11407
[54] Tang L, Zou J 2023 Nano-Micro Lett. 15 230
[55] Li X, Wu Z, Rzepa G, Karner M, Xu H, Wu Z, Wang W, Yang G, Luo Q, Wang L, Li L 2025 Fundamental Research 5 2149
[56] Wang Y, Qiu G, Wang R, Huang S, Wang Q, Liu Y, Du Y, Goddard W A, Kim M J, Xu X, Ye P D, Wu W 2018 Nat. Electron. 1 228
[57] Lemme M C, Akinwande D, Huyghebaert C, Stampfer C 2022 Nat. Commun. 13 1392
[58] Yuehao Zhao, Haoran Sun, Zhe Sheng, David Wei Zhang, Peng Zhou, and Zengxing Zhang 2023 Chin. Phys. B 32 128505
[59] Lee K, Yang S, Sung Y, Chang Y, Lin C, Yang F, Li M, Watanabe K, Taniguchi T, Ho C, Lien C, Lin Y 2019 Adv. Funct. Materials 29 1809011
[60] Pan C, Wang C-Y, Liang S-J, Wang Y, Cao T, Wang P, Wang C, Wang S, Cheng B, Gao A, Liu E, Watanabe K, Taniguchi T, Miao F 2020 Nat. Electron. 3 383
[61] Sun Y, Li M, Ding Y, Wang H, Wang H, Chen Z, Xie D 2022 InfoMat. 4 e12317
[62] Liu Q, Mu Z, Liu C, Zhao L, Chen L, Yang Y, Wei X, Yu W 2021 IEEE Electron Device Lett. 42 657
[63] Kaur G, Gill S S, Rattan M 2020 International Journal on Smart Sensing and Intelligent Systems 13 1
[64] Desai S B, Madhvapathy S R, Sachid A B, Llinas J P, Wang Q, Ahn G H, Pitner G, Kim M J, Bokor J, Hu C, Wong H-S P, Javey A 2016 Science 354 99
[65] Shi X, Wang X, Liu S, Guo Q, Sun L, Li X, Huang R, Wu Y 2022 2022 IEEE International Electron Devices Meeting (IEDM) San Francisco, CA, USA p7. 1. 1
[66] Resta G V, Sutar S, Balaji Y, Lin D, Raghavan P, Radu I, Catthoor F, Thean A, Gaillardon P-E, De Micheli G 2016 Sci. Rep. 6 29448
[67] Jiang J, Xu L, Qiu C, Peng L-M 2023 Nature 616 470
[68] Yu X, Xu L, Shi W, Meng X, Huang X, Peng Z, Tong L, Sun H, Miao X, Ye L 2025 Mater. Horiz.
[69] Wu L, Wang A, Shi J, Yan J, Zhou Z, Bian C, Ma J, Ma R, Liu H, Chen J, Huang Y, Zhou W, Bao L, Ouyang M, Pennycook S J, Pantelides S T, Gao H-J 2021 Nat. Nanotechnol. 16 882
[70] Wu H, Shi J, Ye Z, Yan Z 2025 Appl. Phys. Lett. 127 043101
[71] Zhiwei Fan, Jingyuan Qu, Tao Wang, Yan Wen, Ziwen An, Qitao Jiang, Wuhong Xue, Peng Zhou, and Xiaohong Xu 2023 Chin. Phys. B 32 128508
[72] Liu Z, Deng L, Peng B 2021 Nano Res. 14 1802
[73] Singh P, Baek S, Yoo H H, Niu J, Park J-H, Lee S 2022 ACS Nano 16 5418
[74] Li X, Qin B, Wang Y, Xi Y, Huang Z, Zhao M, Peng Y, Chen Z, Pan Z, Zhu J, Cui C, Yang R, Yang W, Meng S, Shi D, Bai X, Liu C, Li N, Tang J, Liu K, Du L, Zhang G 2024 Nat. Commun. 15 10921
[75] Ehman M M, Samad Y A, Gul J Z, Saqib M, Khan M, Shaukat R A, Chang R, Shi Y, Kim W Y 2025 Prog. Mater. Sci. 152 101471
[76] Zhang F, Zhang H, Shrestha P R, Zhu Y, Maize K, Krylyuk S, Shakouri A, Campbell J P, Cheung K P, Bendersky L A, Davydov A V, Appenzeller J 2018 2018 IEEE International Electron Devices Meeting (IEDM) San Francisco, CA p22. 7. 1
[77] Chen X, Yang D, Hwang G, Dong Y, Cui B, Wang D, Chen H, Lin N, Zhang W, Li H, Shao R, Lin P, Hong H, Yao Y, Sun L, Wang Z, Yang H 2024 ACS Nano 18 10758
[78] Spassov D, Paskaleva A 2023 Nanomaterials 13 2456
[79] Yu X, Ma Z, Shen Z, Li W, Chen K, Xu J, Xu L 2022 Nanomaterials 12 2459
[80] Cao Y, Balijepalli A, Sinha S, Wang C, Wang W, Zhao W 2009 FNT in Electronic Design Automation 3 305
[81] Huang X, Liu C, Tang Z, Zeng S, Wang S, Zhou P 2023 Nat. Nanotechnol. 18 486
[82] Zhang D, Pan W, Tang M, Wang D, Yu S, Mi Q, Pan Q, Hu Y 2023 Nano Res. 16 11959
[83] Lou Z, Liang Z, Shen G 2016 J. Semicond. 37 091001
[84] Lopez-Sanchez O, Lembke D, Kayci M, Radenovic A, Kis A 2013 Nature Nanotech. 8 497
[85] Yore A E, Smithe K K H, Jha S, Ray K, Pop E, Newaz A K M 2017 Appl. Phys. Lett. 111 043110
[86] Shen S, Wu W, Yue X, Qin S, Sheng C, Xia D, Guo J, Chen J, Han J, Liu B, Lu Y, Hu L, Liu R, Qiu Z, Cong C 2025 Adv. Mater. Technologies 10 2500214
[87] Hassan H U, Mun J, Kang B S, Song J Y, Kim T, Kang S-W 2016 RSC Adv. 6 75839
[88] Niu Y, Zeng J, Liu X, Li J, Wang Q, Li H, Rooij N F D, Wang Y, Zhou G 2021 Adv. Sci. 8 2100472
[89] Venkatesan A, Ryu H, Devnath A, Yoo H, Lee S 2024 J. Mater. Sci. Technol. 168 79
[90] Yang J, Luo S, Zhou X, Li J, Fu J, Yang W, Wei D 2019 ACS Appl. Mater. Interfaces 11 14997
[91] Xu D, Duan L, Yan S, Wang Y, Cao K, Wang W, Xu H, Wang Y, Hu L, Gao L 2022 Micromachines 13 660
[92] Daus A, Jaikissoon M, Khan A I, Kumar A, Grady R W, Saraswat K C, Pop E 2022 Nano Lett. 22 6135
[93] Matthus C D, Chava P, Watanabe K, Taniguchi T, Mikolajick T, Helm M, Erbe A 2023 IEEE J. Electron Devices Soc. 11 359
[94] Huang Z, Li Y, Zhang Y, Chen J, He J, Jiang J 2024 Int. J. Extrem. Manuf. 6 032003
[95] Tong L, Peng Z, Lin R, Li Z, Wang Y, Huang X, Xue K-H, Xu H, Liu F, Xia H, Wang P, Xu M, Xiong W, Hu W, Xu J, Zhang X, Ye L, Miao X 2021 Science 373 1353
[96] Sun L, Xu Y, Huo G, Hou Y, Li W, Zheng Y, Shi J, Jiang Y, Su J, Zhuge F, Bando Y, Zhai T, Gao Y, Wang Z L 2025 Nano Energy 143 111311
[97] Wang M, Ouyang D, Dai Y, Huo D, He W, Song B, Hu W, Wu M, Li Y, Zhai T 2025 Adv. Mater. 37 2500049
[98] Hong Y, Liu Y, Li R, Tian H 2024 J. Phys. Mater. 7 032001
[99] Pengfei Wang, Moyu Chen, Yongqin Xie, Chen Pan, Kenji Watanabe, Takashi Taniguchi, Bin Cheng, Shi-Jun Liang, and Feng Miao 2023 Chin. Phys. Lett. 40 117201
[100] Yichun Gong, Jianyu Ming, Siqi Wu, Mingdong Yi, Linghai Xie, Wei Huang, and Haifeng Ling 2024 Acta Phys. Sin. 73 207302(in Chinese)[贡以纯, 明建宇, 吴思齐, 仪明东,解令海, 黄维,凌海峰 2024 物理学报73 207302]
[101] Yan X, Zhao Q, Chen A P, Zhao J, Zhou Z, Wang J, Wang H, Zhang L, Li X, Xiao Z, Wang K, Qin C, Wang G, Pei Y, Li H, Ren D, Chen J, Liu Q 2019 Small 15 1901423
[102] Park E, Kim M, Kim T S, Kim I S, Park J, Kim J, Jeong Y, Lee S, Kim I, Park J-K, Kim G T, Chang J, Kang K, Kwak J Y 2020 Nanoscale 12 24503
[103] Song C, Kim D, Lee S, Kwon H 2024 Adv. Sci. 11 2308588
[104] Wang H, Lu Y, Liu S, Yu J, Hu M, Li S, Yang R, Watanabe K, Taniguchi T, Ma Y, Miao X, Zhuge F, He Y, Zhai T 2023 Adv. Mater. 35 2309099
[105] Choi H, Baek S, Jung H, Kang T, Lee S, Jeon J, Jang B C, Lee S 2025 Adv. Mater. 37 2406970
[106] Dong J, Zhang L, Dai X, Ding F 2020 Nat. Commun. 11 5862
[107] Cao G, An F 2022 Mater. Today Commun. 33 104802
[108] Zhang G, Chen Y, Yue S, Zhang Y-W, Qin H, Liu Y 2023 J. Mech. Phy. Solids 181 105466
[109] Liu R, Lin S, Wan J, Li L, Zhang G, Qin H, Liu Y 2025 Thin-Walled Structures 213 113261
[110] Tsang C I, Pu H, Chen J 2025 APL Mach. Learn. 3 016115
[111] Hua Q, Gao G, Jiang C, Yu J, Sun J, Zhang T, Gao B, Cheng W, Liang R, Qian H, Hu W, Sun Q, Wang Z L, Wu H 2020 Nat. Commun. 11 6207
[112] Xiao X, Peng Z, Zhang Z, Zhou X, Liu X, Liu Y, Wang J, Li H, Novoselov K S, Casiraghi C, Hu Z 2024 Nat. Commun. 15 10491
[113] Hu Z, Krisnanda T, Fieramosca A, Zhao J, Sun Q, Chen Y, Liu H, Luo Y, Su R, Wang J, Watanabe K, Taniguchi T, Eda G, Wang X R, Ghosh S, Dini K, Sanvitto D, Liew T C H, Xiong Q 2024 Nat. Commun. 15 1747
[114] Migliato Marega G, Zhao Y, Avsar A, Wang Z, Tripathi M, Radenovic A, Kis A 2020 Nature 587 72
[115] Lee M, Park C Y, Hwang D K, Kim M, Lee Y T 2022 Npj 2D Mater. Appl 6 45
[116] Huang X, Tong L, Xu L, Shi W, Peng Z, Li Z, Yu X, Li W, Wang Y, Zhang X, Gong X, Xu J, Qiu X, Wen H, Wang J, Hu X, Xiong C, Ye Y, Miao X, Ye L 2025 Nat. Commun. 16 101
[117] Liu C-J, Wan Y, Li L-J, Lin C-P, Hou T-H, Huang Z-Y, Hu V P-H 2022 Adv. Mater. 34 2107894
[118] Xiao K, Wan J, Xie H, Zhu Y, Tian T, Zhang W, Chen Y, Zhang J, Zhou L, Dai S, Xu Z, Bao W, Zhou P 2024 Nat. Commun. 15 9782
[119] Huang X, Leng T, Chang K H, Chen J C, Novoselov K S, Hu Z 2016 2D Mater. 3 025021
[120] Sarker S, Kumar A, Ehteshamuddin M, Dasgupta A 2023 IEEE J. Electron Devices Soc. 11 510
[121] Liu X, Xing K, Sin Tang C, Sun S, Chen P, Qi D-C, Breese M B H, Fuhrer M S, Wee A T S, Yin X 2025 Prog. Mater. Sci. 148 101390
[122] Jiang T, Ryu S-K, Zhao Q, Im J, Huang R, Ho P S 2013 Microelectron. Reliab. 53 53
[123] Lu T, Serafy C, Yang Z, Samal S K, Lim S K, Srivastava A 2017 IEEE Trans. Comput. -Aided Des. Integr. Circuits Syst. 36 1593
[124] Sun Y, Zhang R, Teng C, Tan J, Zhang Z, Li S, Wang J, Zhao S, Chen W, Liu B, Cheng H 2023 Mater. Today 66 9
[125] Cao W, Bu H, Vinet M, Cao M, Takagi S, Hwang S, Ghani T, Banerjee K 2023 Nature 620 501
[126] Lu D, Chen Y, Lu Z, Ma L, Tao Q, Li Z, Kong L, Liu L, Yang X, Ding S, Liu X, Li Y, Wu R, Wang Y, Hu Y, Duan X, Liao L, Liu Y 2024 Nature 630 340
[127] Pendurthi R, Sakib N U, Sadaf M U K, Zhang Z, Sun Y, Chen C, Jayachandran D, Oberoi A, Ghosh S, Kumari S, Stepanoff S P, Somvanshi D, Yang Y, Redwing J M, Wolfe D E, Das S 2024 Nat. Nanotechnol. 19 970
[128] Zhang Q, Li M, Li L, Geng D, Chen W, Hu W 2024 Chem. Soc. Rev. 53 3096
[129] Kim S J, e H J, Lee C H, Jang H W 2024 npj 2D Mater. Appl. 8 70
[130] Shili Yang, Chun-Sheng Liu, Shaohui Yu, Peng Jiang, Hua Hao, Lei Zhang, Yushen Liu, and Xiaohong Zheng 2025 Chin. Phys. Lett. 42 090705
[131] Hui Wang, Meng Xu, and Renkui Zheng 2020 Acta Phys. Sin. 69 017301 (in Chinese)[王慧,徐萌,郑仁奎,2020 物理学报 69 017301]
[132] Xie M S, Jia Y Y, Nie C, Liu Z H, Tang A, Fan S Q, Liang X Y, Jiang L, He Z Z, Yang R 2023 Nat. Commun. 14 5952
[133] Pendurthi R, Sakib N U, Sadaf M U K, Zhang Z Y, Sun Y W, Chen C, Jayachandran D, Oberoi A, Ghosh S, Kumari S, Stepanoff S P, Somvanshi D, Yang Y, Redwing J M, Wolfe D E, Das S 2024 Nat. Nanotechnol. 19 970
[134] Schranghamer T F, Sharma M, Singh R, Das S 2021 Chem. Soc. Rev. 50 11032
[135] Li S F, Pam M E, Li Y S, Chen L, Chien Y C, Fong X Y, Chi D Z, Ang K W 2021 Adv. Mater. 34 2103376
[136] Lu D L, Chen Y, Lu Z Y, Ma L K, Tao Q Y, Li Z W, Kong L G, Liu L T, Yang X K, Ding S M, Liu X, Li Y X, Wu R X, Wang Y L, Hu Y Y, Duan X D, Liao L, Liu Y 2024 Nature 630 340
[137] Kim K S, Seo S, Kwon J, Lee D, Kim C, Ryu J E, Kim J, Suh J M, Jung H G, Jo Y, Shin J C, Song M K, Feng J, Ahn H, Lee S, Cho K, Jeon J, Seol M, Park J H, Kim S W, Kim J 2024 Nature 636 615
[138] Hu Z Y, Li H T, Zhang M D, Jin Z M, Li J X, Fu W K, Dai Y Y, Huang Y, Liu X, Wang Y L 2025 Nano Res. 18 94907225
[139] Goossens S, Navickaite G, Monasterio C, Gupta S, Piqueras J J, Perez R, Burwell G, Nikitskiy I, Lasanta T, Galan T, Puma E, Centeno A, Pesquera A, Zurutuza A, Konstantatos G, Koppens F 2017 Nat. Photon. 11 366
[140] Tong L, Wan J, Xiao K, Liu J, Ma J Y, Guo X J, Zhou L H, Chen X Y, Xia Y, Dai S, Xu Z H, Bao W Z, Zhou P 2023 Nat. Electron. 6 37
[141] Zhu K C, Pazos S, Aguirre F, Shen Y Q, Yuan Y, Zheng W W, Alharbi O, Villena M A, Fang B, Li X Y, Milozzi A, Farronato M, Munoz-Rojo M, Wang T, Li R, Fariborzi H, Roldan J B, Benstetter G, Zhang X X, Alshareef H N, Grasser T, Wu H Q, Ielmini D, Lanza M 2023 Nature 618 57
[142] Zhu J D, Park J H, Vitale S A, Ge W J, Jung G S, Wang J T, Mohamed M, Zhang T Y, Ashok M, Xue M T, Zheng X D, Wang Z E, Hansryd J, Chandrakasan A P, Kong J, Palacios T 2023 Nat. Nanotechnol. 18 456
[143] Katiyar A K, Choi J, Ahn J H 2025 Nano Converg. 12 11
[144] Kong L G, Zhang X D, Tao Q Y, Zhang M L, Dang W Q, Li Z W, Feng L P, Liao L, Duan X F, Liu Y 2020 Nat. Commun. 11 1866
[145] Guo Y M, Li J X, Zhan X P, Wang C W, Li M, Zhang B, Wang Z R, Liu Y Y, Yang K N, Wang H, Li W Y, Gu P F, Luo Z P, Liu Y J, Liu P T, Chen B, Watanabe K, Taniguchi T, Chen X Q, Qin C B, Chen J Z, Sun D M, Zhang J, Wang R S, Liu J P, Ye Y, Li X Y, Hou Y L, Zhou W, Wang H W, Han Z 2024 Nature 630 346
[146] Tang H, Wang Y, Ni X, Watanabe K, Taniguchi T, Jarillo-Herrero P, Fan S, Mazur E, Yacoby A, Cao Y 2024 Nature 632 1038
[147] Sharma S, Faizee M, De Sarkar A 2025 Nanotechnology 36 242001
[148] Miao S, Liu T, Du Y, Zhou X, Gao J, Xie Y, Shen F, Liu Y, Cho Y 2022 Nanomaterials 12 2100
[149] Wachter S, Polyushkin D K, Bethge O, Mueller T 2017 Nat. Commun. 8 14948
[150] Chen X, Xie Y, Sheng Y, Tang H, Wang Z, Wang Y, Wang Y, Liao F, Ma J, Guo X, Tong L, Liu H, Liu H, Wu T, Cao J, Bu S, Shen H, Bai F, Huang D, Deng J, Riaud A, Xu Z, Wu C, Xing S, Lu Y, Ma S, Sun Z, Xue Z, Di Z, Gong X, Zhang D W, Zhou P, Wan J, Bao W 2021 Nat. Commun. 12 5953
[151] Ao M, Zhou X, Kong X, Gou S, Chen S, Dong X, Zhu Y, Sun Q, Zhang Z, Zhang J, Zhang Q, Hu Y, Sheng C, Wang K, Wang S, Wan J, Han J, Bao W, Zhou P 2025 Nature 640 654
[152] Zhang W, Ma S, Ji X, Liu X, Cong Y, Shi L 2024 Nat. Electron. 7 954
[153] Yang Z, Zhang Z, Huo S, Meng F, Wang Y, Ma Y, Liu B, Meng F, Xie Y, Wu E 2025 SmartMat 6 e70005
[154] Zhai Y, Xie P, Hu J, Chen X, Feng Z, Lv Z, Ding G, Zhou K, Zhou Y, Han S 2023 Appl. Phys. Rev. 10 11408
[155] Zhu K, Pazos S, Aguirre F, Shen Y, Yuan Y, Zheng W, Alharbi O, Villena M A, Fang B, Li X, Milozzi A, Farronato M, Muñoz-Rojo M, Wang T, Li R, Fariborzi H, Roldan J B, Benstetter G, Zhang X, Alshareef H N, Grasser T, Wu H, Ielmini D, Lanza M 2023 Nature 618 57
[156] Jain S, Li S, Zheng H, Li L, Fong X, Ang K 2025 Nat. Commun. 16 2719
[157] Kang J, Shin H, Kim K S, Song M, Lee D, Meng Y, Choi C, Suh J M, Kim B J, Kim H, Hoang A T, Park B, Zhou G, Sundaram S, Vuong P, Shin J, Choe J, Xu Z, Younas R, Kim J S, Han S, Lee S, Kim S O, Kang B, Seo S, Ahn H, Seo S, Reidy K, Park E, Mun S, Park M, Lee S, Kim H, Kum H S, Lin P, Hinkle C, Ougazzaden A, Ahn J, Kim J, Bae S 2023 Nat. Mater. 22 1470
[158] Jin T, Gao J, Wang Y, Chen W 2022 Sci. China Mater. 65 2154
[159] Shinde S M, Das T, Hoang A T, Sharma B K, Chen X, Ahn J H 2018 Adv. Funct. Mater. 28 1706231
[160] Tang J, Wang Q, Tian J, Li X, Li N, Peng Y, Li X, Zhao Y, He C, Wu S, Li J, Guo Y, Huang B, Chu Y, Ji Y, Shang D, Du L, Yang R, Yang W, Bai X, Shi D, Zhang G 2023 Nat. Commun. 14 3633
[161] Peng Y, Cui C, Li L, Wang Y, Wang Q, Tian J, Huang Z, Huang B, Zhang Y, Li X, Tang J, Chu Y, Yang W, Shi D, Du L, Li N, Zhang G 2024 Nat. Commun. 15 10833
[162] Chen J, Wang W, Yan X 2025 npj Unconve. Comput. 2 19
[163] Steeneken P G, Soikkeli M, Arpiainen S, Rantala A, Jaaniso R, Pezone R, Vollebregt S, Lukas S, Kataria S, Houmes M J A, Álvarez-Diduk R, Lee K, Suryo Wasisto H, Anzinger S, Fueldner M, Verbiest G J, Alijani F, Hoon Shin D, Malic E, van Rijn R, Nevanen T K, Centeno A, Zurutuza A, van der Zant H S J, Merkoçi A, Duesberg G S, Lemme M C 2025 2D Mater. 12 023002
[164] Meng Y, Feng J, Han S, Xu Z, Mao W, Zhang T, Kim J S, Roh I, Zhao Y, Kim D, Yang Y, Lee J, Yang L, Qiu C, Bae S 2023 Nat. Rev. Mater. 8 498
[165] Goossens S, Navickaite G, Monasterio C, Gupta S, Piqueras J J, Pérez R, Burwell G, Nikitskiy I, Lasanta T, Galán T, Puma E, Centeno A, Pesquera A, Zurutuza A, Konstantatos G, Koppens F 2017 Nat. Photonics 11 366
[166] Zhang D, Xu Z, Huang Z, Gutierrez A R, Blocker C J, Liu C, Lien M, Cheng G, Liu Z, Chun I Y, Fessler J A, Zhong Z, Norris T B 2021 Nat. Commun. 12 2413
[167] Chen M, Ma Y, Aslam N, Liu C, Chen Y, Luo L, Zhang X, Mai K, Xiao H, Zhu K, Alharbi O, Zheng D, Xu X, Liao H, Yang Y, Wang H, Zhou Z, Wang H, Tian B, Li J, He X, Chang K, Wan Y, Shamim A, Alshareef H N, Lanza M, Anthopoulos T D, Han Z, Xue F, Zhang X 2025 Nat. Nanotechnol. 20 1633
[168] Dang B, Zhang T, Wu X, Liu K, Huang R, Yang Y 2024 Nat. Electron. 7 991
[169] Mennel L, Symonowicz J, Wachter S, Polyushkin D K, Molina-Mendoza A J, Mueller T 2020 Nature 579 62
[170] Huang P, Jiang B, Chen H, Xu J, Wang K, Zhu C, Hu X, Li D, Zhen L, Zhou F, Qin J, Xu C 2023 Nat. Commun. 14 6736
[171] Ma S, Wu T, Chen X, Wang Y, Ma J, Chen H, Riaud A, Wan J, Xu Z, Chen L, Ren J, Zhang D W, Zhou P, Chai Y, Bao W 2022 Sci. Adv. 8 9328
[172] Zhao G, Wei Z, Wang W, Feng D, Xu A, Liu W, Song Z 2020 Nanotechnol. Rev. 9 182
[173] Akbulut M, Scholar E A 2018 IEEE Nanotechnol. Mag. 12 19
[174] Song H, Liu J, Liu B, Wu J, Cheng H-M, Kang F 2018 Joule 2 442
[175] Wu F, Tian H, Shen Y, Zhu Z, Liu Y, Hirtz T, Wu R, Gou G, Qiao Y, Yang Y, Xing C, Zhang G, Ren T 2022 Adv. Mater. Interfaces 9 2200409
[176] Woon W-Y, Kasperovich A, Wen J-R, Hu K K, Malakoutian M, Jhang J-H, Vaziri S, Datye I, Shih C C, Hsu J F, Bao X Y, Wu Y, Nomura M, Chowdhury S, Liao S S 2025 Nat. Rev. Electr. Eng. 2 598
[177] Kumari M, Singh N K, Sahoo M, Rahaman H 2022 Silicon 14 4473
[178] Rizzi L, Zienert A, Schuster J, Köhne M, Schulz S E 2019 Comp. Mater. Sci. 161 364
[179] Guo C, Xu J, Ping Y 2021 J. Phys. Condens. Matter. 33 234001
[180] Yu W, Cheng S, Li Z, Liu L, Zhang Z, Zhao Y, Guo Y, Liu S 2024 Fundamental Research 4 1442
[181] Chen S, Zhang H, Ling Z, Zhai J, Yu B 2025 ASPDAC ’25: 30th Asia and South Pacific Design Automation Conference Tokyo Japan p285
[182] Das Sharma D, Pasdast G, Tiagaraj S, Aygün K 2024 Nat. Electron. 7 244
[183] Gupta S, Zhang J-J, Lei J, Yu H, Liu M, Zou X, Yakobson B I 2025 Chem. Rev. 125 786
[184] Li X, Wu Z, Rzepa G, Karner M, Xu H, Wu Z, Wang W, Yang G, Luo Q, Wang L, Li L 2025 Fundamental Research 5 2149
[185] Wang S, Yu S, Chen W, Wang Y, Bi A, An Z, Diao Y, Li W, Wang Y 2025 Appl. Therm. Eng. 279 127699
[186] Sheng C, Dong X, Zhu Y, Wang X, Chen X, Xia Y, Xu Z, Zhou P, Wan J, Bao W 2023 Adv. Funct. Materials 33 2304778
计量
- 文章访问数: 9
- PDF下载量: 0
- 被引次数: 0
下载:
