1. S. L. Yu, X. Q. Wu, Y. P. Wang, X. Guo, L. M. Tong*, “2D materials for optical modulation: challenges and opportunities," Adv. Mater. 29, 1606128 (2017).
  2. S. L. Yu, X. Q. Wu, K. R. Chen, B. G. Chen, X. Guo, D. X. Dai, L. M. Tong*, W. T. Liu, Y. R. Shen*, “All-optical graphene modulator based on optical Kerr phase shift,” Optica 3, 541–544 (2016). 
  3. P. Wang, Y. P. Wang, Z. Y. Yang, X. Guo, X. Lin, X. C. Yu, Y. F. Xiao, W. Fang, L. Zhang, G. W. Lu, Q. H. Gong, L. M. Tong*, “Single-band 2-nm-linewidth plasmon resonance in a strongly coupled Au nanorod,” Nano Lett. 15, 7581–7586 (2015).
  4. J. S. Wu, X. Guo, A. P. Zhang*, H. Y. Tam, “Rapid 3D mu-printing of polymer optical whispering-gallery mode resonators,” Opt. Express 23, 29708–29714 (2015).
  5. Y. P. Wang, X. Guo, L. M. Tong*, J. Y. Lou, “Modeling of Au-nanowire waveguide for plasmonic sensing in liquids,” J. Lightwave Technol. 32, 3631–3636 (2014).
  6. B. G. Chen, C. Meng, Z. Y. Yang, W. Li, S. S. Lin, T. Y. Gu, X. Guo*, D. L. Wang, S. L. Yu, C. W. Wong, L. M. Tong*, “Graphene coated ZnO nanowire optical waveguides,” Opt. Express 22, 24276–24285 (2014).
  7. X. Y. Li, X. Guo*, D. L. Wang, L. M. Tong, “Propagation losses in gold nanowires,” Opt. Commun. 323, 119–122 (2014).
  8. W. Li, Z. F. Hu, X. Y. Li, W. Fang, X. Guo, L. M. Tong*, “High-sensitivity microfiber strain and force sensors,” Opt. Commun. 314, 28–30 (2014).
  9. X. Guo, Y. B. Ying, L. M. Tong*, “Photonic nanowires: from subwavelength waveguides to optical sensors,” Acc. Chem. Res. 47, 656–666 (2014). (IF=22.323)
  10. H. L. Qian, Y. G. Ma, Q. Yang, B. G. Chen, Y. Liu, X. Guo, S. S. Lin, J. L. Ruan, X. Liu, L. M. Tong, Z. L. Wang, “Electrical tuning of surface plasmon polariton propagation in graphenenanowire hybrid structure,” ACS Nano 8, 2584–2589 (2014).
  11. X. Q. Wu, Y. Xiao, C. Meng, X. N. Zhang, S. L. Yu, Y. P. Wang, C. X. Yang, X. Guo, C. Z. Ning, L. M. Tong*, “Hybrid photon-plasmon nanowire lasers,” Nano Lett. 13, 5654–5659 (2013).
  12. Z. F. Hu, X. Guo*, L. M. Tong, “Freestanding nanowire ring laser,” Appl. Phys. Lett. 103, 183104 (2013).
  13. X. Y. Li, W. Li, X. Guo*, J. Y. Lou, L. M. Tong*, “All-fiber hybrid photon-plasmon circuits: integrating nanowire plasmonics with fiber optics,” Opt. Express 21, 15698–15705 (2013).
  14. Y. G. Ma, X. Guo, X. Q. Wu, L. Dai, L. M. Tong*, “Semiconductor nanowire lasers,” Adv. Opt. Photon. 5, 216–273 (2013).
  15. X. Guo, Y. G. Ma, Y. P. Wang, L. M. Tong*, “Nanowire plasmonic waveguides, circuits and devices,”Laser & Photon. Rev. 7, 855–881 (2013). (IF=8.008)
  16. L. M. Tong*, F. Zi, X. Guo, J. Y. Lou, “Optical microfibers and nanofibers: a tutorial,” Opt. Commun. 285, 4641–4647 (2012).
  17. Y. P. Wang, Y. G. Ma, X. Guo, L. M Tong*, “Single-mode plasmonic waveguiding properties of metal nanowires with dielectric substrates,” Opt. Express 20, 19006–19015 (2012).
  18. T. H. Li, Q. Wang*, X. Guo, Z. G. Jia, P. Y. Wang, X. M. Ren, Y. Q. Huang, S. W. Cai, “The saturation density property of (B)InAs/GaAs quantum dots grown by metal-organic chemical vapor deposition,”Phys. E 44, 1146–1151 (2012).
  19. W. Wei, X. Zhang*, X. Guo, L. Zheng, J. Gao, W. P. Shi, Q. Wang, Y. Q. Huang, X. M. Ren, “Refractive index sensors based on Ag-metalized nanolayer in microstructured optical fibers,” Optik 123, 1167–1170 (2012).
  20. X. Yan, X. Zhang*, X. M. Ren*, H. Huang, J. W. Guo, X. Guo, M. J. Liu, Q. Wang, S. W. Cai, Y. Q. Huang, “Growth of InAs quantum dots on GaAs nanowires by metal organic chemical vapor deposition,”Nano Lett. 11, 3941–3945 (2011).
  21. J. W. Guo*, H. Huang, X. M. Ren, X. Yan, S. W. Cai, X. Guo, Y. Q. Huang, Q. Wang, X. Zhang, W. Wang, “Growth of zinc blende GaAs/AlGaAs radial heterostructure nanowires by a two-temperature process,”Chin. Phys. Lett. 28, 036101 (2011).
  22. X. N. Zhang, Z. Ma, H. K. Yu, X. Guo, Y. G. Ma, L. M. Tong*, “Plasmonic resonance of whispering gallery modes in an Au cylinder,” Opt. Express 19, 3902–3907 (2011).
  23. Z. Ma, X. N. Zhang, X. Guo, Q. Yang, Y. G. Ma, L. M. Tong*, “Surface plasmon excitation in silver nanowires directly deposited on a laser diode chip,” Appl. Phys. Lett. 96, 051119 (2010).
  24. X. Guo, X. N. Zhang, L. M. Tong*, “Silver nanowire ring resonator,” Chin. Sci. Bull. 55, 2649–2651 (2010).
  25. Q. Yang, X. Guo, W. H. Wang, Y. Zhang, S. Xu, D. H. Lien, Z. L. Wang*, “Enhancing sensitivity of a single ZnO micro-/nanowire photodetector by piezo-phototronic effect,” ACS Nano 4, 6285–6291 (2010).
  26. X. Guo, M. Qiu, J. M. Bao, B. J. Wiley, Q. Yang, X. N. Zhang, Y. G. Ma, H. K. Yu, L. M. Tong*, “Direct coupling of plasmonic and photonic nanowires for hybrid nanophotonic components and circuits,”Nano Lett. 9, 4515–4519 (2009). (IF=13.592)
  27. Y. Ding, Q. Yang, X. Guo, S. S. Wang, F. X. Gu, J. Fu, Q. Wan, J. P. Cheng, L. M. Tong*, “Nanowires/microfiber hybrid structure multicolor laser,” Opt. Express 17, 21813–21818 (2009).
  28. Q. Yang, X. S. Jiang, X. Guo, Y. Chen, L. M. Tong*, “Hybrid structure laser based on semiconductor nanowires and a silica microfiber knot cavity,” Appl. Phys. Lett. 94, 101108 (2009).
  29. X. Guo, L. M. Tong*, “Supported microfiber loops for optical sensing,” Opt. Express 16, 14429–14434 (2008).
  30. X. Guo, Y. H. Li, X. S. Jiang, L. M. Tong*, “Observation of critical coupling in microfiber loops wrapped around a copper rod,” Appl. Phys. Lett. 91, 073512 (2007).