李立宏 李立宏

最小化 最大化

简历curriculum vitae:

 李立宏,女,汉族,副研究员,博士(后)。2005年武汉科技大学工学学士学位和管理学学士学位,2011年北京科技大学博士学位,之后在清华大学化学系做博士后,于2013年1月底博士后出站,2013年2月到中国科学院化学研究所参加工作,2017-2018年在加州大学洛杉矶分校(UCLA)做访问学者。


目前主要从事纳米材料在打印印刷中的应用的研究,包括压电材料、类石墨烯纳米材料、金属纳米粒子等功能材料制备和打印等方面的研究工作。目前承担国家自然科学基金面上项目1项,北京市自然科学基金面上项目1项,参与国家重点科技计划的研究工作。已完成国家基金委面上基金1项、青年基金1项,中国博士后科学基金项目1项,曾参与国家基础研发计划及中国科学院先导等项目。已发表SCI研究论文40余篇(第一/通讯作者20余篇),SCI他引2000余次,H因子25,授权及申请发明专利17项。


主要研究领域Research Area:

1. 纳米材料在打印印刷领域器件研究

2. 纳米粒子墨水

3. 3D打印纳米材料

代表性文章Representative Publications:(按时间降序排列)

  1. Li, L.,#* Yu, X.,#Lin, Z.,#* Cai, Z., Cao, Y., Kong, W., Xiang, Z., Gu, Z., Xing, X., Duan, X.,*Song, Y.* High-performance transistors via direct-writing atomic-thick 2D semiconductor thin film using hyperdispersed ink. Adv. Mater.DOI: 10.1002/adma.202207392 (2022).
  2. Xiang, Z., Li, L.,* Lu, Z., Yu, X., Cao, Y., Tahir, M., Song, Y.,* Microarray flexible piezoelectric acoustic sensor based on multicomponent lead-free perovskite rods. Matter Accept (2022).
  3. Tahir, M., Li, L.,* He, L.,* Xiang, Z., Ma, Z., Song, Y.* Interdigital alternating stacked microelectrodes for high-performance on-chip microsupercapacitor. Energy Environ. Mater. DOI: 10.1002/eem2.12546 (2022).
  4. Kong, W., Li, L.,* Yu, X., Xiang, Z., Cao, Y., Tahir, M., Lu, Z., Deng, J., Song, Y.* Platinum nickel alloy-MXene catalyst with inverse opal structure for enhanced hydrogen evolution in both acidic and alkaline solutions. Nano Res. DOI: 10.1007/s12274-022-4667-x (2022).
  5. Kong, W., Deng,*J., Li, L.*Recent advances in noble metal MXene-based catalysts for electrocatalysis. J. Mater. Chem. A 10, 14674-14691 (2022).
  6. Gu, Z., Wang, Y., Wang, S., Zhang, T., Zhao, R., Hu, X., Huang, Z., Su, M., Xu, Q., Li, L.,*Zhang, Y.,*Song, Y.*Controllable printing of large-scale compact perovskite films for flexible photodetectors. Nano Res. 15, 1547-1553 (2022).
  7. Yu, X., Li, L.,*Chen, B., Qian, C., Li, Z., Su, M., Song, Y., Xing, X. Large-scale two-dimensional MoSx catalyst prepared under mild conditions for enhancing electrocatalytic hydrogen evolution reaction. Chem. Asian J. 15, 1990-1995 (2020).
  8. Xiang, Z., Li, L.,*Wang, Y., Song, Y.*Recent advances in noble-metal-free catalysts for electrocatalytic synthesis of ammonia under ambient conditions. Chem. Asian J. 15, 1791-1807 (2020). (正封面文章
  9. Qian, C.,#Li, L.,#Gao, M.,*Yang, H., Cai, Z., Chen, B., Xiang, Z., Zhang, Z.,*Song, Y. All-printed 3D hierarchically structured cellulose aerogel based triboelectric nanogenerator for multi-functional sensors. Nano Energy 63, 103885 (2019).
  10. Li, L.,Xiang, Z., Gao, M., Bian, C., Su, M., Li, F., Xing, X., Song, Y.*Multi-element topochemical-molten salt synthesis of one-dimensional piezoelectric perovskite. iScience 17, 1-9 (2019).
  11. Sun, J., Guo, Y., Cui, B., Chu, F. Q., Li, H., Li, Y., He, M., Ding, D., Liu, R. P., Li, L.,*Song, Y. Inkjet printing bendable circuits based on an oil-water interface reaction. Appl. Surf. Sci. 445, 391-397 (2018).
  12. Gao, M., Kuang, M., Li, L.,*Liu, M., Wang, L., Song, Y.*Printing 1D assembly array of single particle resolution for magnetosensing. Small 14, 1800117 (2018). (正封面文章
  13. Li, L.,Gao, M., Guo, Y., Sun, J., Li, Y., Li, F., Song, Y.,*Li, Y. Transparent Ag@Au-graphene patterns with conductive stability via inkjet printing. J. Mater. Chem. C 5, 2800-2806 (2017). (背封面文章
  14. Gao, M., Li, L.,*Song, Y.*Inkjet printing wearable electronic devices. J. Mater. Chem. C 5, 2971-2993 (2017). (高被引文章
  15. Li, L.,Deng, J., Chen, J., Xing, X.*Topochemical molten salt synthesis for functional perovskite compounds. Chem. Sci. 7, 855-865 (2016).(同时被ChemInform收录)[pdf]
  16. Gao, M., Li, L.,*Li, W., Zhou, H., Song, Y.*Direct writing of patterned, lead-free nanowire aligned flexible piezoelectric device. Adv. Sci. 3, 1600120 (2016).[pdf]
  17. Li, L.,Guo, Y., Zhang, X., Song, Y.*Inkjet-printed highly conductive transparent patterns with water based Ag-doped graphene. J. Mater. Chem. A 2, 19095-19101 (2014).[pdf]
  18. Li, L.,Deng, J., Yu, R., Chen, J., Wang, Z., Xing, X.*Niobium pentoxide hollow nanospheres with enhanced visible light photocatalytic activity. J. Mater. Chem. A 1, 11894-11900 (2013).[pdf]
  19. Li, L.,Wu, Y., Lu, J., Nan, C., Li, Y.*Synthesis of Pt-Ni/graphene via in situ reduction and its enhanced catalyst activity for methanol oxidation. Chem. Commum. 49, 7486-7488 (2013).[pdf]
  20. Li, L., Nan, C., Lu, J., Peng, Q., Li, Y.*a-MnO2 nanotubes: high surface area and enhanced lithium battery properties. Chem. Commum. 48, 6945-6947 (2012).(同时被ChemInform收录)[pdf]
  21. Li, L.,Deng, J., Yu, R., Chen, J., Wang, X., Xing, X.*Phase evolution in low-dimensional niobium oxide synthesized by a topochemical method. Inorg. Chem. 49, 1397-1403 (2010).[pdf]
  22. Li, L.,Deng, J., Chen, J., Yu, R., Qiao, L., Xing, X.*Piezoelectric and ferroelectric properties of 0.96(Na,K)(Nb0.9Ta0.1)O3-0.04LiSbO3 ceramics synthesized by molten salt method. J. Alloy. Compd. 471, 428-431 (2009).
  23. Li, L.,Deng, J., Chen, J., Sun, X., Yu, R., Liu, G., Xing, X.*Wire structure and morphology transformation of niobium oxide and niobates by molten salt synthesis. Chem. Mater. 21, 1207-1213 (2009).[pdf]
  24. Li, L.,Chen, J., Deng, j., Yu, R., Qiao, L., Liu, G., Xing, X*. Topochemical synthesis of micron-platelet (Na0.5K0.5)NbO3 particles. Eur. J. Inorg. Chem., 2186-2190 (2008).