Citation: | Peiyue Shen, Xianliang Zhou, Jiajun Chen, Aolin Deng, Bosai Lyu, Zhichun Zhang, Shuo Lou, Saiqun Ma, Binbin Wei, Zhiwen Shi. Quick identification of ABC trilayer graphene at nanoscale resolution via a near-field optical route[J]. Materials Futures, 2023, 2(1): 015301. doi: 10.1088/2752-5724/acbecd |
[1] |
Wang H, Gao J H and Zhang F C 2013 Flat band electrons and interactions in rhombohedral trilayer graphene Phys. Rev. B 87 155116
|
[2] |
Shin J, Chittari B L and Jung J 2021 Stacking and gate-tunable topological flat bands, gaps, and anisotropic strip patterns in twisted trilayer graphene Phys. Rev. B 104 045413
|
[3] |
Ma Z, Li S, Zheng Y W, Xiao M M, Jiang H, Gao J H and Xie X C 2021 Topological flat bands in twisted trilayer graphene Sci. Bull. 66 18–22
|
[4] |
Chittari B L, Chen G R, Zhang Y B, Wang F and Jung J 2019 Gate-tunable topological flat bands in trilayer graphene boron-nitride moire superlattices Phys. Rev. Lett. 122 016401
|
[5] |
Akhanda M S, Rezaei S E, Esfarjani K, Krylyuk S, Davydov V and Zebarjadi M 2021 Flat bands, electron interactions, and magnetic order in magic-angle mono-trilayer graphene Phys. Rev. Mater. 5 084008
|
[6] |
Lui C H, Li Z Q, Mak K F, Cappelluti E and Heinz T F 2011 Observation of an electrically tunable band gap in trilayer graphene Nat. Phys. 7 944–7
|
[7] |
Trohalaki S 2011 Electrically tunable bandgap observed in ABC-trilayer graphene MRS Bull. 36 951–2
|
[8] |
Zhang L Y, Zhang Y, Camacho J, Khodas M and Zaliznyak I 2011 The experimental observation of quantum Hall effect of l=3 chiral quasiparticles in trilayer graphene Nat. Phys. 7 953–7
|
[9] |
Yin L J, Yang L Z, Zhang L, Wu Q L, Fu X S, Tong L H, Yang G, Tian Y, Zhang L J and Qin Z H 2020 Imaging of nearly flat band induced atomic-scale negative differential conductivity in ABC-stacked trilayer graphene Phys. Rev. B 102 241403
|
[10] |
Li Y W et al 2022 Observation of coexisting dirac bands and moire flat bands in magic-angle twisted trilayer graphene Adv. Mater. 34 2205996
|
[11] |
Hao Y F, Wang Y Y, Wang L, Ni Z H, Wang Z Q, Wang R, Koo C K, Shen Z X and Thong J T L 2010 Probing layer number and stacking order of few-layer graphene by Raman spectroscopy Small 6 195–200
|
[12] |
Cong C X, Yu T, Sato K, Shang J Z, Saito R, Dresselhaus G F and Dresselhaus M S 2011 Raman characterization of ABA- and ABC-stacked trilayer graphene Acs Nano 5 8760–8
|
[13] |
Lui C H, Li Z Q, Chen Z Y, Klimov P V, Brus L E and Heinz T F 2011 Imaging stacking order in few-layer graphene Nano Lett. 11 164–9
|
[14] |
Lui C H, Malard L M, Kim S, Lantz G, Laverge F E, Saito R and Heinz T F 2012 Observation of layer-breathing mode vibrations in few-layer graphene through combination Raman scattering Nano Lett. 12 5539–44
|
[15] |
Malard L M, Pimenta M A, Dresselhaus G and Dresselhaus M S 2009 Raman spectroscopy in graphene Phys. Rep. 473 51–87
|
[16] |
Mak K F, Shan J and Heinz T F 2010 Electronic structure of few-layer graphene: experimental demonstration of strong dependence on stacking sequence Phys. Rev. Lett. 104 176404
|
[17] |
Warner J H, Mukai M and Kirkland A I 2012 Atomic structure of ABC rhombohedral stacked trilayer graphene ACS Nano 6 5680–6
|
[18] |
Yin L J, Wang W X, Zhang Y, Ou Y Y, Zhang H T, Shen C Y and He L 2017 Observation of chirality transition of quasiparticles at stacking solitons in trilayer graphene Phys. Rev. B 95 081402
|
[19] |
Wu H J et al 2021 Direct visualization and manipulation of stacking orders in few-layer graphene by dynamic atomic force microscopy J. Phys. Chem. Lett. 12 7328–34
|
[20] |
Zhang S et al 2022 Domino-like stacking order switching in twisted monolayer-multilayer graphene Nat. Mater. 21 621
|
[21] |
Chen J N et al 2012 Optical nano-imaging of gate-tunable graphene plasmons Nature 487 77–81
|
[22] |
Fei Z et al 2012 Gate-tuning of graphene plasmons revealed by infrared nano-imaging Nature 487 82–85
|
[23] |
Lundeberg M B, Gao Y D, Woessner A, Tan C, Alonso-Gonzalez P, Watanabe K, Taniguchi T, Hone J, Hillenbrand R and Koppens F H L 2017 Thermoelectric detection and imaging of propagating graphene plasmons Nat. Mater. 16 204–7
|
[24] |
Jiang L L, Wang S, Shi Z W, Jin C H, Utama M I B, Zhao S H, Shen Y R, Gao H J, Zhang G Y and Wang F 2018 Manipulation of domain-wall solitons in bi- and trilayer graphene Nat. Nanotechnol. 13 204
|
[25] |
Nikitin A Y et al 2016 Real-space mapping of tailored sheet and edge plasmons in graphene nanoresonators Nat. Photon. 10 239
|
[26] |
Woessner A et al 2015 Highly confined low-loss plasmons in graphene-boron nitride heterostructures Nat. Mater. 14 421–5
|
[27] |
Shi Z W, Hong X P, Bechtel H A, Zeng B, Martin M C, Watanabe K, Taniguchi T, Shen Y R and Wang F 2015 Observation of a Luttinger-liquid plasmon in metallic single-walled carbon nanotubes Nat. Photon. 9 515–9
|
[28] |
Zhao S H et al 2018 Correlation of electron tunneling and plasmon propagation in a Luttinger liquid Phys. Rev. Lett. 121 047702
|
[29] |
Ju L et al 2015 Topological valley transport at bilayer graphene domain walls Nature 520 650–U356
|
[30] |
Li P N, Dolado I, Alfaro-Mozaz F J, Casanova F, Hueso L E, Liu S, Edgar J H, Nikitin A Y, Velez S and Hillenbrand R 2018 Infrared hyperbolic metasurface based on nanostructured van der Waals materials Science 359 892
|
[31] |
Qu Y P et al 2022 Tunable planar focusing based on hyperbolic phonon polaritons in alpha-MoO3 Adv. Mater. 34 2105590
|
[32] |
Wu Y J et al 2020 Chemical switching of low-loss phonon polaritons in alpha-MoO3 by hydrogen intercalation Nat. Commun. 11 2646
|
[33] |
Joshi T et al 2017 Coupled one-dimensional plasmons and two-dimensional phonon polaritons in hybrid silver nanowire/silicon carbide structures Nano Lett. 17 3662–7
|
[34] |
Zhang Y R et al 2020 Tunable cherenkov radiation of phonon polaritons in silver nanowire/hexagonal boron nitride heterostructures Nano Lett. 20 2770–7
|
[35] |
Du J et al 2021 Fano resonance enabled infrared nano-imaging of local strain in bilayer graphene Chin. Phys. Lett. 38 056301
|
[36] |
Lyu B S et al 2019 Phonon polariton-assisted infrared nanoimaging of local strain in hexagonal boron nitride Nano Lett. 19 1982–9
|
[37] |
Huber A J, Ziegler A, Kock T and Hillenbrand R 2009 Infrared nanoscopy of strained semiconductors Nat. Nanotechnol. 4 153–7
|
[38] |
Qian J, Luan Y L, Kim M S, Ho K M, Shi Y, Wang C Z, Li Y and Fei Z 2021 Nonequilibrium phonon tuning and mapping in few-layer graphene with infrared nanoscopy Phys. Rev. B 103 L201407
|
[39] |
Tang T T et al 2010 A tunable phonon-exciton Fano system in bilayer graphene Nat. Nanotechnol. 5 32–36
|
[40] |
Lui C H, Cappelluti E, Li Z Q and Heinz T F 2013 Tunable infrared phonon anomalies in trilayer graphene Phys. Rev. Lett. 110 185504
|
[41] |
Aoki M and Amawashi H 2007 Dependence of band structures on stacking and field in layered graphene Solid State Commun. 142 123–7
|
[42] |
Kumar S B and Guo J 2011 Multilayer graphene under vertical electric field Appl. Phys. Lett. 98 222101
|
[43] |
Mei H Y, Xu W, Wang C, Yuan H F, Zhang C, Ding L, Zhang J, Deng C, Wang Y F and Peeters F M 2018 Terahertz magneto-optical properties of bi- and tri-layer graphene J. Phys.: Condens. Matter 30 175701
|
[44] |
Dressel M and Scheffler M 2006 Verifying the drude response Ann. Phys. 15 535–44
|
[45] |
Fano U 1961 Effects of configuration interaction on intensities and phase shifts Phys. Rev. 124 1866
|
mfacbecdsupp1.pdf |