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| Toward intrinsic graphene surfaces: a systematic study on thermal annealing and wet-chemical treatment of SiO2-supported graphene devices Z Cheng, Q Zhou, C Wang, Q Li, C Wang*, Y Fang* Nano letters 11 (2), 767-771, 2011 | 659 | 2011 |
| On-chip photonic synapse Z Cheng, C Ríos, WHP Pernice, CD Wright, H Bhaskaran* Science advances 3 (9), e1700160, 2017 | 537 | 2017 |
| Suspended graphene sensors with improved signal and reduced noise Z Cheng, Q Li, Z Li, Q Zhou, Y Fang* Nano letters 10 (5), 1864-1868, 2010 | 394 | 2010 |
| Graphene reinforced carbon nanotube networks for wearable strain sensors J Shi, X Li#, H Cheng, Z Liu, L Zhao, T Yang, Z Dai, Z Cheng, E Shi, ... Advanced Functional Materials 26 (13), 2078-2084, 2016 | 391 | 2016 |
| In-memory computing on a photonic platform C Ríos, N Youngblood, Z Cheng, ML Gallo, WHP Pernice, CD Wright, ... arXiv preprint arXiv:1801.06228, 2018 | 356 | 2018 |
| Fast and reliable storage using a 5 bit, nonvolatile photonic memory cell X Li, N Youngblood, C Ríos, Z Cheng, CD Wright, WHP Pernice, ... Optica 6 (1), 1-6, 2018 | 261 | 2018 |
| Device‐level photonic memories and logic applications using phase‐change materials Z Cheng, C Ríos, N Youngblood, CD Wright, WHP Pernice, H Bhaskaran Advanced Materials 30 (32), 1802435, 2018 | 206 | 2018 |
| Roadmap on emerging hardware and technology for machine learning K Berggren, Q Xia, KK Likharev, DB Strukov, H Jiang, T Mikolajick, ... Nanotechnology 32 (1), 012002, 2020 | 205 | 2020 |
| Self-assembled 1-octadecanethiol monolayers on graphene for mercury detection T Zhang#, Z Cheng#, Y Wang, Z Li, C Wang, Y Li, Y Fang* Nano letters 10 (11), 4738-4741, 2010 | 200 | 2010 |
| Plasmonic nanogap enhanced phase-change devices with dual electrical-optical functionality N Farmakidis, N Youngblood, X Li, J Tan, JL Swett, Z Cheng, CD Wright, ... Science advances 5 (11), eaaw2687, 2019 | 192 | 2019 |
| Controlled switching of phase-change materials by evanescent-field coupling in integrated photonics C Rios, M Stegmaier, Z Cheng, N Youngblood, CD Wright, WHP Pernice, ... Optical materials express 8 (9), 2455-2470, 2018 | 158 | 2018 |
| Graphene, a material for high temperature devices–intrinsic carrier density, carrier drift velocity and lattice energy Y Yin, Z Cheng, L Wang, K Jin, W Wang Scientific reports 4 (1), 5758, 2014 | 98 | 2014 |
| Tunable Volatility of Ge2Sb2Te5 in Integrated Photonics N Youngblood, C Ríos, E Gemo, J Feldmann, Z Cheng, A Baldycheva, ... Advanced Functional Materials 29 (11), 1807571, 2019 | 85 | 2019 |
| Experimental investigation of silicon and silicon nitride platforms for phase-change photonic in-memory computing X Li, N Youngblood, Z Cheng, SGC Carrillo, E Gemo, WHP Pernice, ... Optica 7 (3), 218-225, 2020 | 83 | 2020 |
| Sub-10-nm intracellular bioelectronic probes from nanowire–nanotube heterostructures TM Fu, X Duan*, Z Jiang, X Dai, P Xie, Z Cheng, CM Lieber* Proceedings of the National Academy of Sciences 111 (4), 1259-1264, 2014 | 82 | 2014 |
| Neuromorphic Photonic Memory Devices Using Ultrafast, Non‐Volatile Phase‐Change Materials X Chen, Y Xue, Y Sun, J Shen, S Song, M Zhu, Z Song, Z Cheng, P Zhou Advanced Materials 35 (37), 2203909, 2023 | 78 | 2023 |
| Spontaneous formation of nanostructures in graphene Z Li, Z Cheng, R Wang, Q Li, Y Fang* Nano letters 9 (10), 3599-3602, 2009 | 73 | 2009 |
| Antimony thin films demonstrate programmable optical nonlinearity Z Cheng, T Milne, P Salter, JS Kim, S Humphrey, M Booth, H Bhaskaran Science advances 7 (1), eabd7097, 2021 | 71 | 2021 |
| Sensitivity limits and scaling of bioelectronic graphene transducers Z Cheng#, J Hou#, Q Zhou, T Li, H Li, L Yang, K Jiang, C Wang, Y Li*, ... Nano letters 13 (6), 2902-2907, 2013 | 57 | 2013 |
