| Wafer scale homogeneous bilayer graphene films by chemical vapor deposition S Lee, K Lee, Z Zhong Nano letters 10 (11), 4702-4707, 2010 | 540 | 2010 |
| Short-channel field-effect transistors with 9-atom and 13-atom wide graphene nanoribbons JP Llinas, A Fairbrother, G Borin Barin, W Shi, K Lee, S Wu, B Yong Choi, ... Nature communications 8 (1), 633, 2017 | 382 | 2017 |
| Use of graphene as protection film in biological environments W Zhang, S Lee, KL McNear, TF Chung, S Lee, K Lee, SA Crist, TL Ratliff, ... Scientific reports 4 (1), 4097, 2014 | 217 | 2014 |
| Visualization of the flat electronic band in twisted bilayer graphene near the magic angle twist MIB Utama, RJ Koch, K Lee, N Leconte, H Li, S Zhao, L Jiang, J Zhu, ... Nature Physics 17 (2), 184-188, 2021 | 137 | 2021 |
| Flexible and transparent all-graphene circuits for quaternary digital modulations S Lee, K Lee, CH Liu, GS Kulkarni, Z Zhong Nature communications 3 (1), 1018, 2012 | 110 | 2012 |
| Homogeneous bilayer graphene film based flexible transparent conductor S Lee, K Lee, CH Liu, Z Zhong Nanoscale 4 (2), 639-644, 2012 | 70 | 2012 |
| Coulomb blockade in monolayer MoS 2 single electron transistor K Lee, G Kulkarni, Z Zhong Nanoscale 8 (14), 7755-7760, 2016 | 60 | 2016 |
| Evidence for extraction of photoexcited hot carriers from graphene CH Liu, NM Dissanayake, S Lee, K Lee, Z Zhong ACS nano 6 (8), 7172-7176, 2012 | 41 | 2012 |
| Reticular growth of graphene nanoribbon 2D covalent organic frameworks G Veber, CS Diercks, C Rogers, WS Perkins, J Ciston, K Lee, JP Llinas, ... Chem 6 (5), 1125-1133, 2020 | 34 | 2020 |
| High-Performance Atomically-Thin Room-Temperature NO2 Sensor A Azizi, M Dogan, H Long, JD Cain, K Lee, R Eskandari, A Varieschi, ... Nano letters 20 (8), 6120-6127, 2020 | 33 | 2020 |
| Ultrahigh-resolution scanning microwave impedance microscopy of moiré lattices and superstructures K Lee, MIB Utama, S Kahn, A Samudrala, N Leconte, B Yang, S Wang, ... Science advances 6 (50), eabd1919, 2020 | 31 | 2020 |
| Electrical probing and tuning of molecular physisorption on graphene GS Kulkarni, K Reddy, W Zang, K Lee, X Fan, Z Zhong Nano Letters 16 (1), 695-700, 2016 | 30 | 2016 |
| Novel T-channel nanowire FET with built-in signal amplification for pH sensing KS Shin, K Lee, JY Kang, CO Chui 2009 IEEE International Electron Devices Meeting (IEDM), 1-4, 2009 | 22 | 2009 |
| Schottky contacted nanowire field-effect sensing device with intrinsic amplification KS Shin, K Lee, JH Park, JY Kang, CO Chui IEEE electron device letters 31 (11), 1317-1319, 2010 | 15 | 2010 |
| Evidence of electronic cloaking from chiral electron transport in bilayer graphene nanostructures K Lee, S Lee, YS Eo, C Kurdak, Z Zhong Physical Review B 94 (20), 205418, 2016 | 14 | 2016 |
| A laser-assisted chlorination process for reversible writing of doping patterns in graphene Y Rho, K Lee, L Wang, C Ko, Y Chen, P Ci, J Pei, A Zettl, J Wu, ... Nature Electronics 5 (8), 505-510, 2022 | 13 | 2022 |
| Uniform multilayer graphene by chemical vapor deposition Z Zhong, S Lee, KH Lee US Patent 10,886,126, 2021 | 12 | 2021 |
| Correlation-driven electron-hole asymmetry in graphene field effect devices N Dale, R Mori, MIB Utama, JD Denlinger, C Stansbury, CG Fatuzzo, ... npj Quantum Materials 7 (1), 9, 2022 | 9 | 2022 |
| Experimental and Theoretical Study of Possible Collective Electronic States in Exfoliable Re-Doped NbS2 A Azizi, M Dogan, JD Cain, K Lee, X Yu, W Shi, EC Glazer, ML Cohen, ... ACS nano 15 (11), 18297-18304, 2021 | 8 | 2021 |
| A microcolumn DC graphene sensor for rapid, sensitive, and universal chemical vapor detection W Zang, Z Liu, GS Kulkarni, H Zhu, Y Wu, K Lee, MWH Li, X Fan, Z Zhong Nano Letters 21 (24), 10301-10308, 2021 | 7 | 2021 |
Zhaohui ZhongAssociate Professor of Electrical Engineering and Computer ScienceDirección de correo verificada de umich.edu
