謝黎明[中國科學院國家納米科學中心研究員]

基本信息

姓 名: 謝黎明

職 稱: 研究員

通訊地址: 北京市海淀區中關村北一條11號

簡歷

主要從事過的工作：1）單根單壁碳納米管的光致發光、電致發光和拉曼光譜研究；2）單根石墨烯納米帶的高分辨結構表征、拉曼光譜表征和器件研究；3）石墨烯作為基底在拉曼光譜檢測中的套用研究。在JACS、Nature Nanotech.、Nano Lett.、ACS nano、Nano Research等雜誌上發表論文20餘篇，引用次數300餘次。

目前的研究興趣是光譜技術在納米醫藥材料表征、納米醫藥成像和納米材料表征等方面的套用，主要包括：1）納米醫藥材料的標準檢測方法研究；2）深紫外拉曼光譜和表面增強拉曼光譜在疾病檢測中的套用，如癌症的早期檢測等；3）低維納米材料（如二維的石墨烯、六方BN、MoS2，一維的碳納米管、石墨烯納米帶……）的拉曼光譜表征。

研究領域

顯微拉曼光譜

納米醫藥

生物檢測

二維晶體薄膜材料

碳納米材料

代表論著

1. Xie, L. M., Wang, H. L., Jin, C. H., Wang, X. R., Jiao, L. Y., Suenaga, K., and Dai, H. J, Graphene nanoribbons from unzipped carbon nanotubes: atomic structures, Raman spectroscopy and electrical properties. Journal of the American Chemical Society

2. Xie, L. M., Jiao, L. Y., and Dai, H. J., Selective Etching of Graphene Edges by Hydrogen Plasma. Journal of the American Chemical Society

3. Xie, L. M., Ling, X., Fang, Y., Zhang, J., and Liu, Z. F., Graphene as a Substrate To Suppress Fluorescence in Resonance Raman Spectroscopy. Journal of the American Chemical Society

4. Xie, L. M., Liu, C., Zhang, J., Zhang, Y. Y., Jiao, L. Y., Jiang, L., Dai, L., and Liu, Z. F., Photoluminescence recovery from single-walled carbon nanotubes on substrates. Journal of the American Chemical Society

5. Xie, L. M., Farhat, H., Son, H. B., Zhang, J., Dresselhaus, M. S., Kong, J., and Liu, Z. F., Electroluminescence from Suspended and On-Substrate Metallic Single-Walled Carbon Nanotubes. Nano Letters

6. Xie, L. M., Chou, S. G., Pande, A., Pande, J., Zhang, J., Dresselhaus, M. S., Kong, J., and Liu, Z. F., Single-Walled Carbon Nanotubes Probing the Denaturation of Lysozyme. Journal of Physical Chemistry C

7. Xie, L. M., Yu, X. C., Feng, C. Q., Zhang, J., and Liu, Z. F., Raman Characterization of a Highly Folded Individual Serpentine (7,5) Single-Walled Carbon Nanotube. Acta Physico-Chimica Sinica

8. Wu, J., Xie, L. M. (co-first author), Li, Y. G., Wang, H. L., Ouyang, Y. J., Guo, J., and Dai, H. J., Controlled Chlorine Plasma Reaction for Noninvasive Graphene Doping. Journal of the American Chemical Society

9. Ling, X., Xie, L. M., Fang, Y., Xu, H., Zhang, H. L., Kong, J., Dresselhaus, M. S., Zhang, J., and Liu, Z. F., Can Graphene be used as a Substrate for Raman Enhancement? Nano Letters

10. Xu, H., Xie, L. M., Zhang, H. L., and Zhang, J., Effect of Graphene Fermi Level on the Raman Scattering Intensity of Molecules on Graphene.ACS Nano

11. Zhang, Y. Y., Xie, L. M., Zhang, J., Wu, Z. Y., and Liu, Z. F., Temperature coefficients of Raman frequency of individual single-walled carbon nanotubes. Journal of Physical Chemistry C

12. Yang, Y. L., Xie, L. M., Chen, Z., Liu, M. H., Zhu, T., and Liu, Z. F., Purification and length separation of single-walled carbon nanotubes using chromatographic method. Synthetic Metals

13. Wu, J., Xie, L. M., Hong, G. S., Lim, H. E., Thendie, B., Miyata, Y., Shinohara, H., and Dai, H. J., Short Channel Field-Effect Transistors from Highly Enriched Semiconducting Carbon Nanotubes.Nano Research

14. Jiao, L. Y., Xie, L. M., and Dai, H. J., Densely aligned graphene nanoribbons at similar to 35 nm pitch.Nano Research

15. Zhang, J., Hong, G., Xie, L. M., Yu, X. C., and Liu, Z. F. Growth of Single-Walled Carbon Nanotubes on Surface with Controlled Structures. MRS Proceedings

16. Sherlock, S. P., Tabakman, S. M., Xie, L. M., and Dai, H. J., Photothermally Enhanced Drug Delivery by Ultrasmall Multifunctional FeCo/Graphitic Shell Nanocrystals. ACS Nano

17. Li, Y. G., Wang, H. L., Xie, L. M., Liang, Y. Y., Hong, G. S., and Dai, H. J., MoS2 Nanoparticles Grown on Graphene: An Advanced Catalyst for the Hydrogen Evolution Reaction. Journal of the American Chemical Society

18. Chen, Z., Yang, Y. L., Wu, Z. Y., Luo, G., Xie, L. M., Liu, Z. F., Ma, S. J., and Guo, W. L., Electric-field-enhanced assembly of single-walled carbon nanotubes on a solid surface. Journal of Physical Chemistry B

19. Li, Y., G,, Zhou, W., Wang, H. L., Xie, L. M., Liang, Y. Y., Wei, F., Idrobo, J. C., Pennycook, S. J., and Dai, H. J., An oxygen reduction electrocatalyst based on carbon nanotube–graphene complexes.Nature Nanotechnology,

20. Wang, X. R., Ouyang, Y. J., Jiao, L. Y., Wang, H. L., Xie, L. M., Wu, J., Guo, J., and Dai, H. J., Graphene nanoribbons with smooth edges behave as quantum wires.Nature Nanotechnology