| Thermal conductivity of graphene nanoribbons Z Guo, D Zhang, XG Gong Applied physics letters 95 (16), 2009 | 515 | 2009 |
| Absence and presence of Dirac electrons in silicene on substrates ZX Guo, S Furuya, J Iwata, A Oshiyama Physical Review B 87 (23), 235435, 2013 | 224 | 2013 |
| Layer and size dependence of thermal conductivity in multilayer graphene nanoribbons HY Cao, ZX Guo, H Xiang, XG Gong Physics Letters A 376 (4), 525-528, 2012 | 124 | 2012 |
| Ultra-low thermal conductivity of two-dimensional phononic crystals in the incoherent regime G Xie, Z Ju, K Zhou, X Wei, Z Guo, Y Cai, G Zhang npj Computational Materials 4 (1), 21, 2018 | 104 | 2018 |
| Absence of Dirac Electrons in Silicene on Ag (111) Surfaces ZX Guo, S Furuya, J Iwata, A Oshiyama J. Phys. Soc. Jpn. 82 ,063714 (arXiv:1211.3495), 2013 | 91 | 2013 |
| Structural tristability and deep Dirac states in bilayer silicene on Ag(111) surfaces ZX Guo, A Oshiyama Phys. Rev. B 89, 155418 (2014) [arXiv:1309.6412], 2014 | 76 | 2014 |
| Substrate effects on the thermal conductivity of epitaxial graphene nanoribbons ZX Guo, JW Ding, XG Gong Physical Review B 85 (23), 235429, 2012 | 58 | 2012 |
| Manipulating thermal conductivity through substrate coupling ZX Guo, D Zhang, XG Gong Physical Review B 84 (7), 075470, 2011 | 50 | 2011 |
| Interfacial heat transport in nano-carbon assemblies L Qiu, X Zhang, Z Guo, Q Li Carbon 178, 391-412, 2021 | 49 | 2021 |
| Promising Properties of a Sub-5-nm Monolayer Mo Si 2 N 4 Transistor JS Huang, P Li, XX Ren, ZX Guo Phys. Rev. Applied 16, 044022(2021); arXiv:2105.12512, 2021 | 42 | 2021 |
| Topological Dirac states beyond π-orbitals for silicene on SiC (0001) surface P Li, X Li, W Zhao, H Chen, MX Chen, ZX Guo, J Feng, XG Gong, ... Nano Letters 17 (10), 6195-6202, 2017 | 35 | 2017 |
| Structural Evolution and Optoelectronic Applications of Multilayer Silicene ZX Guo, YY Zhang, H Xiang, XG Gong, A Oshiyama PHYSICAL REVIEW B 92, 201413(R) ( arXiv:1510.04164v1), 2015 | 32 | 2015 |
| Enhanced thermoelectric properties of armchair graphene nanoribbons with defects and magnetic field W Zhao, ZX Guo, JX Cao, JW Ding AIP Advances 1 (4), 2011 | 29 | 2011 |
| Strain engineering of magnetic state in vacancy-doped phosphorene J Ren, C Zhang, J Li, Z Guo, H Xiao, J Zhong Physics Letters A 380 (40), 3270-3277, 2016 | 26 | 2016 |
| Giant tunable spin Hall angle in sputtered Bi2Se3 controlled by an electric field Q Lu, P Li, Z Guo, G Dong, B Peng, X Zha, T Min, Z Zhou, M Liu Nature communications 13 (1), 1-8, 2022 | 25 | 2022 |
| Enhanced thermoelectric performance of defected silicene nanoribbons W Zhao, ZX Guo, Y Zhang, JW Ding, XJ Zheng Solid State Communications 227, 1-8, 2016 | 25 | 2016 |
| New approach for fabrication germanene with Dirac electrons preserved: A first principle study P Li, J Cao, ZX Guo J. Mater. Chem. C 4, 1736 (2016) (arXiv:1511.07158), 2016 | 19 | 2016 |
| Crossover between Silicene and Ultra-Thin Si Atomic Layers on Ag (111) Surfaces ZX Guo, A Oshiyama New J. Phys. 17 045028 (2015) (arXiv:1501.02551), 2015 | 19 | 2015 |
| Molecular dynamics studies on the thermal conductivity of single-walled carbon nanotubes Z Guo, X Gong Frontiers of Physics in China 4, 389-392, 2009 | 19 | 2009 |
| Intriguing Magnetoelectric Effect in Two-dimensional Ferromagnetic/Perovskite Oxide Ferroelectric Heterostructure P Li, XS Zhou, ZX Guo npj Computational Materials 8, 20 (2022) (arXiv:2106.04998), 2022 | 18 | 2022 |
xin-gao gongfudan universityVerified email at fudan.edu.cn
