主要学术成果(论文、专利、专著、译著等) |
1. Chen, S., Li, W., Zhang, Z., Childs, D., Zhou, K., Orchard, J., Kennedy, K., Hugues, M., Clarke, E., Ross, I. and Wada, O. (2015). GaAs-based superluminescent light-emitting diodes with 290-nm emission bandwidth by using hybrid quantum well/quantum dot structures. Nanoscale Research letters, 10(1), 340. 2. Chen, S., Li, W., Wu, J., Jiang, Q., Tang, M., Shutts, S., Elliott, S.N., Sobiesierski, A., Seeds, A.J., Ross, I., Smowton, P. M. and Liu, H. (2016). Electrically pumped continuous-wave III–V quantum dot lasers on silicon. Nature Photonics,10, 307-311. (IF: 37.85) 3. Li, W., Chen, S., Tang, M., Wu, J., Hogg, R., Seeds, A., Liu, H, Ross, I. (2017). Effect of rapid thermal annealing on threading dislocation density in GaAs monolithically grown on Si. Journal of Applied Physics, 123, 215303. 4. Butler, I., Li, W., Ross, I., Nishi, K., Takemasa, K., Sugawara, M., Sobhani, S., Banazadeh, N., Childs, D., and Hogg, R. (2018). Size anisotropy inhomogeneity effects in state-of-art quantum dot lasers. Applied Physics letters, 113, 012105. 5. Wang, Y., Chen, S., Yu, Y., Zhou, L., Liu, L., Yang, C., Liao, M., Tang, M., Liu, Z. Wu, J., Li, W., Ross, I., Seeds, A. J., Liu, H. and Yu S. (2018). Monolithic quantum-dot distributed feedback laser array on silicon. Optica, 5(5), 528. (IF: 7.78) 6. Li, W., Chen, S., Wu, J., Li, A., Tang, M., Yang, L., Chen, Y., Seeds, A., Liu, H, Ross, I. (2019) The effect of post-growth rapid thermal annealing on InAs/InGaAs dot-in-a-well structure monolithically grown on Si. Journal of Applied Physics, 123, 135301. 7. Liao, M.*, Li, W.*, Tang, M., Li, A., Chen S., Seeds, A., and Liu, H. (2019) Selective area intermixing of III–V quantumdot lasers grown on silicon with two wavelength lasing emissions. Semicond. Sci. Technol. 34, 085004. 8. Lu. Y., Cao. V., Liao. M., Li. W., Tang. M., Li. A., Smowton. P., Seeds. A., Liu. H., Chen. S. (2020) Electrically pumped continuous-wave O-band quantum-dot superluminescent diode on silicon. Opt Lett. 45(19):5468-5471. 9. Hui, F., Li, C., Chen, Y. Wang, C., Huang, J., Li, A., Li, W., Zou, J. & Han. X. (2020) Understanding the structural evolution of Au/WO2.7 compounds in hydrogen atmosphere by atomic scale in situ environmental TEM. Nano Res. 13, 3019–3024. 10. Li, K., Yang, J., Lu, Y., Tang, M., Jurczak, P., Liu, Z., Yu, X., Park, J.-S., Deng, H., Jia, H., Dang, M., Sanchez, A. M., Beanland, R., Li, W., Han, X., Zhang, J.-C., Wang, H., Liu, F., Chen, S., Seeds, A., Smowton, P., Liu, H., Inversion Boundary Annihilation in GaAs Monolithically Grown on On-Axis Silicon (001). Adv. Optical Mater. 2020, 8, 2000970 11. Yang, L., Li, S., Fan, K., Li, Y., Chen, Y., Li, W., Kong, D., Cao, P., Long, H., Li, A. (2021)Twin crystal structured Al-10 wt.% Mg alloy over broad velocity conditions achieved by high thermal gradient directional solidification, Journal of Materials Science & Technology, Volume 71, 152-162. 12. Qu,X., Zhou,C., Li,A., Li,W., Li, W., Wang,K., and Zheng, K. Atomic-Scale Observation of Unusual Dislocations in GaAs-GaAsSb Heterostructured Nanowires ACS Applied Materials & Interfaces 2022 14 (5), 7513-7521 13. J. Ding, L. Wang, P. Wu, A. Li, W. Li, C. Stampfl, X. Liao, B. S. Haynes, X. Han, J. Huang, Confined Ru Nanocatalysts on Surface to Enhance Ammonia Synthesis: An In situ ETEM Study ChemCatChem 2021, 13, 534.
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