21)Zhang, L.; Xia, Y., Scaling up the Production of Colloidal Nanocrystals: Should We Increase or Decrease the Reaction Volume? Advanced Materials 2014,26, 2600-2606. 

20)Zhang, L.; Wang, Y.; Tong, L.; Xia, Y., Synthesis of Colloidal Metal Nanocrystals in Droplet Reactors: The Pros and Cons of Interfacial Adsorption. Nano Letters 2014,14 (7), 4189-4194. 

19)Zhang, L.; Wang, Y.; Tong, L.; Xia, Y., Seed-Mediated Synthesis of Silver Nanocrystals with Controlled Sizes and Shapes in Droplet Microreactors Separated by Air. Langmuir 2013,29 (50), 15719-15725. 

18)Wang, P.; Li, Z.; Zhang, L.; Tong, L., Electron-beam-activated light-emitting polymer nanofibers. Optics Letters 2013,38 (7), 1040-1042. 

17)Liu, M.; Zheng, Y.; Zhang, L.; Guo, L.; Xia, Y., Transformation of Pd Nanocubes into Octahedra with Controlled Sizes by Maneuvering the Rates of Etching and Regrowth. Journal of the American Chemical Society 2013,135 (32), 11752-11755. 

16)Li, Z.; Wang, P.; Tong, L.; Zhang, L., Gold nanorod-facilitated localized heating of droplets in microfluidic chips. Optics Express 2013,21 (1), 1281-1286. 

15)Kim, Y. H.; Zhang, L.; Yu, T.; Jin, M.; Qin, D.; Xia, Y., Droplet-Based Microreactors for Continuous Production of Palladium Nanocrystals with Controlled Sizes and Shapes. Small 2013,9 (20), 3462-3467. 

14)Wang, P.; Zhang, L.; Xia, Y.; Tong, L.; Xu, X.; Ying, Y., Polymer nanofibers embedded with aligned gold nanorods: a new platform for plasmonic studies and optical sensing. Nano Letters 2012,12 (6), 3145-3150. 

13)Zhang, L.; Wang, P.; Xiao, Y.; Yu, H.; Tong, L., Ultra-sensitive microfibre absorption detection in a microfluidic chip. Lab on a Chip 2011,11 (21), 3720-3724. 

12)Zhang, L.; Lou, J.; Tong, L., Micro/nanofiber optical sensors. Photonic Sensors 2011,1 (1), 31-42. 

11)Wang, P.; Gu, F.; Zhang, L.; Tong, L., Polymer microfiber rings for high-sensitivity optical humidity sensing. Applied optics 2011, 50 (31), G7-G10. 

10)Meng, C.; Xiao, Y.; Wang, P.; Zhang, L.; Liu, Y.; Tong, L., Quantum-Dot-Doped Polymer Nanofibers for Optical Sensing. Advanced Materials 2011, 23 (33), 3770-3774. 

9)Gu, F. X.; Zhang, L.; Yu, H. K.; Fang, W.; Bao, J. M.; Tong, L. M., Large defect-induced sub-bandgapphotoresponse in semiconductor nanowires via waveguiding excitation. Nanotechnology 2011, 22 (42), 4252011-5. 

8)Wang, P.; Zhang, L.; Yang, Z. Y.; Gu, F. X.; Wang, S. S.; Yang, Q.; Tong, L. M., Fusion Spliced Microfiber Closed-Loop Resonators. IEEE Photonics Technology Letters 2010,22 (15), 1075-1077. 

7)Zhang, L.; Gu, F. X.; Tong, L. M.; Yin, X. F., Simple and cost-effective fabrication of two-dimensional plastic nanochannels from silica nanowire templates. Microfluidics and Nanofluidics 2008,5 (6), 727-732. 

6)Zhang, L.; Gu, F. X.; Lou, J. Y.; Yin, X. F.; Tong, L. M., Fast detection of humidity with a subwavelength-diameter fiber taper coated with gelatin film. Optics Express 2008,16 (17), 13349-13353. 

5)Qi, L. Y.; Yin, X. F.; Zhang, L.; Wang, M., Rapid and variable-volume sample loading in sieving electrophoresis microchips using negative pressure combined with electrokinetic force. Lab on a Chip 2008,8 (7), 1137-1144. 

4)Gu, F. X.; Zhang, L.; Yin, X. F.; Tong, L. M., Polymer single-nanowire optical sensors. Nano Letters 2008,8 (9), 2757-2761. 

3)Zhang, L.; Yin, X. F., Parallel separation of multiple samples with negative pressure sample injection on a 3-D microfluidic array chip. Electrophoresis 2007,28 (8), 1281-1288. 

2) Zhang, L.; Yin, X. F.; Fang, Z. L., Negative pressure pinched sample injection for microchip-based electrophoresis. Lab on a Chip 2006,6 (2), 258-264. 

1)Zhang, L.; Yin, X. F., Field amplified sample stacking coupled with chip-based capillary electrophoresis using negative pressure sample injection technique. Journal of Chromatography A 2006,1137 (2), 243-248.