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  110. Pan, D.; Wei, H.; Jia, Z.; Xu, H., Mode Conversion of Propagating Surface Plasmons in Nanophotonic Networks Induced by Structural Symmetry Breaking. Scientific Reports 2014, 4 (1).

  111. Li, Q.; Wei, H.; Xu, H.-X., Remote excitation and remote detection of a single quantum dot using propagating surface plasmons on silver nanowire. Chinese Physics B 2014, 23 (9), 097302.

  112. Li, Q.; Wei, H.; Xu, H., Resolving single plasmons generated by multiquantum-emitters on a silver nanowire. Nano Letters 2014, 14 (6), 3358-63.

  113. Chen, L.; Wei, H.; Chen, K.-Q.; Xu, H.-X., High-order plasmon resonances in an Ag/Al2O3core/shell nanorice. Chinese Physics B 2014, 23 (2), 027303.

  114. Boardman, A. D.; Jia, Z.; Pan, D.; Wei, H.; Xu, H., Mode control and loss compensation of propagating surface plasmons. Plasmonics: Metallic Nanostructures and Their Optical Properties XII 2014, 9163, 91630O.

  115. Zhao, Y.-L.; Song, Y.-L.; Song, W.-G.; Liang, W.; Jiang, X.-Y.; Tang, Z.-Y.; Xu, H.-X.; Wei, Z.-X.; Liu, Y.-Q.; Liu, M.-H.; Jiang, L.; Bao, X.-H.; Wan, L.-J.; Bai, C.-L., Progress of nanoscience in China. Frontiers of Physics 2013, 9 (3), 257-288.

  116. Zhang, Z.-L.; Chen, L.; Sheng, S.-X.; Sun, M.-T.; Zheng, H.-R.; Chen, K.-Q.; Xu, H.-X., High-vacuum tip enhanced Raman spectroscopy. Frontiers of Physics 2013, 9 (1), 17-24.

  117. Zhang, Z.; Yang, P.; Xu, H.; Zheng, H., Surface enhanced fluorescence and Raman scattering by gold nanoparticle dimers and trimers. Journal of Applied Physics 2013, 113 (3), 033102.

  118. Zhang, Z.; Sun, M.; Ruan, P.; Zheng, H.; Xu, H., Electric field gradient quadrupole Raman modes observed in plasmon-driven catalytic reactions revealed by HV-TERS. Nanoscale 2013, 5 (10), 4151-5.

  119. Zhang, Z.; Chen, L.; Sun, M.; Ruan, P.; Zheng, H.; Xu, H., Insights into the nature of plasmon-driven catalytic reactions revealed by HV-TERS. Nanoscale 2013, 5 (8), 3249-52.

  120. Zhang, S.; Chen, L.; Huang, Y.; Xu, H., Reduced linewidth multipolar plasmon resonances in metal nanorods and related applications. Nanoscale 2013, 5 (15), 6985-91.

  121. Yang, P.; Di, Z.; Xu, H., Low-loss light transmission in a rectangular-shaped hybrid metal trench at 1550 nm. Optics Express 2013, 21 (14), 17053-9.

  122. Wei, H.; Zhang, S.; Tian, X.; Xu, H., Highly tunable propagating surface plasmons on supported silver nanowires. Proceedings of the National Academy of Sciences 2013, 110 (12), 4494-9.

  123. Wei, H.; Xu, H., Hot spots in different metal nanostructures for plasmon-enhanced Raman spectroscopy. Nanoscale 2013, 5 (22), 10794-805.

  124. Wang, P.; Chen, L.; Wang, R.; Ji, Y.; Zhai, D.; Wu, X.; Liu, Y.; Chen, K.; Xu, H., Giant optical activity from the radiative electromagnetic interactions in plasmonic nanoantennas. Nanoscale 2013, 5 (9), 3889-94.

  125. Tong, L.-M.; Xu, H.-X., Frontiers of Plasmonics. Frontiers of Physics 2013, 9 (1), 1-2.

  126. Tong, L.; Wei, H.; Zhang, S.; Li, Z.; Xu, H., Optical properties of single coupled plasmonic nanoparticles. Physical Chemistry Chemical Physics 2013, 15 (12), 4100-9.

  127. Tian, X.; Tong, L.; Xu, H., New progress of plasmonics in complex metal nanostructures. Science China Physics, Mechanics and Astronomy 2013, 56 (12), 2327-2336.

  128. Sun, M.; Zhang, Z.; Wang, P.; Li, Q.; Ma, F.; Xu, H., Remotely excited Raman optical activity using chiral plasmon propagation in Ag nanowires. Light: Science & Applications 2013, 2 (11), e112-e112.

  129. Sun, M.; Zhang, Z.; Kim, Z. H.; Zheng, H.; Xu, H., Plasmonic scissors for molecular design. Chemistry 2013, 19 (44), 14958-62.

  130. Sun, M.; Zhang, Z.; Chen, L.; Xu, H., Tip-Enhanced Resonance Couplings Revealed by High Vacuum Tip-Enhanced Raman Spectroscopy. Advanced Optical Materials 2013, 1 (6), 449-455.

  131. Sun, M.; Fang, Y.; Zhang, Z.; Xu, H., Activated vibrational modes and Fermi resonance in tip-enhanced Raman spectroscopy. Physical review. E, Statistical, nonlinear, and soft matter physics 2013, 87 (2), 020401.

  132. Pan, D.; Wei, H.; Xu, H.-X., Metallic nanowires for subwavelength waveguiding and nanophotonic devices. Chinese Physics B 2013, 22 (9), 097305.

  133. Pan, D.; Wei, H.; Xu, H., Optical interferometric logic gates based on metal slot waveguide network realizing whole fundamental logic operations. Optics Express 2013, 21 (8), 9556-62.

  134. Mårsell, E.; Arnold, C. L.; Lorek, E.; Guenot, D.; Fordell, T.; Miranda, M.; Mauritsson, J.; Xu, H.; L'Huillier, A.; Mikkelsen, A., Secondary electron imaging of nanostructures using Extreme Ultra-Violet attosecond pulse trains and Infra-Red femtosecond pulses. Annalen der Physik 2013, 525 (1-2), 162-170.

  135. Liu, S.-Y.; Huang, L.; Li, J.-F.; Wang, C.; Li, Q.; Xu, H.-X.; Guo, H.-L.; Meng, Z.-M.; Shi, Z.; Li, Z.-Y., Simultaneous Excitation and Emission Enhancement of Fluorescence Assisted by Double Plasmon Modes of Gold Nanorods. The Journal of Physical Chemistry C 2013, 117 (20), 10636-10642.

  136. Liu, N.; Wei, H.; Li, J.; Wang, Z.; Tian, X.; Pan, A.; Xu, H., Plasmonic amplification with ultra-high optical gain at room temperature. Scientific Reports 2013, 3, 1967.

  137. Liang, H.; Rossouw, D.; Zhao, H.; Cushing, S. K.; Shi, H.; Korinek, A.; Xu, H.; Rosei, F.; Wang, W.; Wu, N.; Botton, G. A.; Ma, D., Asymmetric silver "nanocarrot" structures: solution synthesis and their asymmetric plasmonic resonances. Journal of the American Chemical Society 2013, 135 (26), 9616-9.

  138. Li, Z.; Zhang, S.; Tong, L.; Wang, P.; Dong, B.; Xu, H., Ultrasensitive Size-Selection of Plasmonic Nanoparticles by Fano Interference Optical Force. ACS nano 2013, 8 (1), 701-8.

  139. Li, J.; Wei, H.; Shen, H.; Wang, Z.; Zhao, Z.; Duan, X.; Xu, H., Electrical source of surface plasmon polaritons based on hybrid Au-GaAs QW structures. Nanoscale 2013, 5 (18), 8494-9.

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