Research Topic:

Control light in nanoscale

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18. Photothermal modulation of propagating surface plasmons on silver nanowires

Q., Li, L., Chen, H., Xu, Z., Liu and H., Wei
ACS Photonics 6 (8), 2133-2140 (2019)

17. Multi-layer nanoarrays sandwiched by anodized aluminium oxide membranes: an approach to an inexpensive, reproducible, highly sensitive SERS substrate

C., Zhao, Y., Zhu, L., Chen, S., Zhou, Y., Su, X., Ji, A., Chen, X., Gui, Z., Tang and Z., Liu
Nanoscale 10 (34), 16278-16283 (2018)

16. Lithographically fabricated gold nanowire waveguides for plasmonic routers and logic gates

L., Gao, L., Chen, H., Wei, H., Xu
Nanoscale 10 (25), 11923-11929 (2018)

15. Optical observation of plasmonic nonlocal effects in a 2D superlattice of ultrasmall gold nanoparticles

H., Shen, L., Chen, L., Ferrari, M., Lin, N., Mortensen, S., Gwo and Z., Liu
Nano letters 17 (4), 2234-2239 (2017)

14. Plasmon-enhanced two-photon absorption in photoluminescent semiconductor nanocrystals

B., Marin, S., Hsu, L., Chen, A., Lo, D., Zwissler, Z., Liu and A., Tao
ACS Photonics 3 (4), 526-531 (2016)

13. Propagating surface plasmon polaritons: towards applications for remote‐excitation surface catalytic reactions

Z., Zhang, Y., Fang, W., Wang, L., Chen and M., Sun
Advanced Science 3 (1), 1500215 (2015)

12. Quantum electrostatic model for optical properties of nanoscale gold films

H., Qian, Y., Xiao, D., Lepage, L., Chen and Z., Liu
Nanophotonics 4 (1), 413-418 (2015)

11. Near field plasmonic gradient effects on high vacuum tip-enhanced Raman spectroscopy

Y., Fang, Z., Zhang, L., Chen and M., Sun
Physical Chemistry Chemical Physics 17 (2), 783-794 (2015)

10. Directionally-Controlled Periodic Collimated Beams of Surface Plasmon Polaritons on Metal Film in Ag Nanowire/Al2O3/Ag Film Composite Structure

H., Wei, X., Tian, D., Pan, L., Chen, Z., Jia and H., Xu
Nano letters 15 (1), 560-564 (2014)

9. Plasmon‐Driven Selective Reductions Revealed by Tip‐Enhanced Raman Spectroscopy

M., Sun, Z., Zhang, L., Chen, Q., Li, S., Sheng, H., Xu and P., Song
Advanced Materials Interfaces 1 (5), 1300125 (2014)

8. High-vacuum tip enhanced Raman spectroscopy

Z., Zhang, L., Chen, S., Sheng, M., Sun, H., Zheng, K., Chen and H., Xu
Frontiers of Physics 9 (1), 17-24 (2014)

7. Plasmonic gradient effects on high vacuum tip‐enhanced Raman spectroscopy

M., Sun, Z., Zhang, L., Chen, S., Sheng and H., Xu
Advanced Optical Materials 2 (1), 74-80 (2014)

6. High-order plasmon resonances in an Ag/Al2O3 core/shell nanorice

L., Chen, H., Wei, K., Chen and H., Xu
Chinese Physics B 23 (2), 027303 (2013)

5. Tip‐Enhanced Resonance Couplings Revealed by High Vacuum Tip‐Enhanced Raman Spectroscopy

M., Sun, Z., Zhang, L., Chen and H., Xu
Advanced Optical Materials 1 (6), 449-455 (2013)

4. Insights into the nature of plasmon-driven catalytic reactions revealed by HV-TERS

Z., Zhang, L., Chen, M., Sun, P., Ruan, H., Zheng and H., Xu
Nanoscale 5 (8), 3249-3252 (2013)

3. Giant optical activity from the radiative electromagnetic interactions in plasmonic nanoantennas

P., Wang, L., Chen, R., Wang, Y., Ji, D., Zhai, X., Wu, Y., Liu, K., Chen and H., Xu
Nanoscale 5 (9), 3889-3894 (2013)

2. Reduced linewidth multipolar plasmon resonances in metal nanorods and related applications

S., Zhang, L., Chen, Y., Huang and H., Xu
Nanoscale 5 (15), 6985-6991 (2013)

1. Ascertaining genuine SERS spectra of p-aminothiophenol

X., Tian, L., Chen, H., Xu and M., Sun
Rsc Advances 2 (22), 8289-8292 (2012)