Publications
For a full list of publications, please visit: Google Scholar
https://scholar.google.com/citations?hl=zh-CN&user=Hn_HJOkAAAAJ&view_op=list_works&sortby=pubdate
Selected Publications
- Li, Zhaojun*, Nameirakpam, H., Berggren, E., Noumbe, U., Kimura, T., Asakura, E., Gray V., Edvinsson, T., Lindblad, A., Kohda, M., Araujo, R., Rao, A., Mutta, V.. (2024). Synchronized Photoluminescence and Electrical Mobility Enhancement in 2D WS2 through Sequence-Specific Chemical Passivation. Journal of the American Chemical Society, accepted. *Corresponding author.
- Li, Zhaojun*, Bretscher, H., Rao, A. (2024). Chemical treatments of monolayer transition metal dichalcogenides and their prospect in optoelectronic applications. Invited minireview, Nanoscale,16, 9728-9741. *Corresponding author.
- Li, Zhaojun, Rashvand, F., Bretscher, H., Szydłowska, B. M., Xiao, J., Backes, C. & Rao A. (2022). Understanding the photoluminescence quenching of liquid exfoliated WS2 monolayers. The Journal of Physical Chemistry C, 126, 21681-21688.
- Li, Zhaojun, Bretscher, H., Zhang, Y., Delport, G., Xiao, J., Lee, A., Stranks, S. D. & Rao, A. (2021). Mechanistic insight into the chemical treatments of monolayer transition metal disulfides for photoluminescence enhancement. Nature Communications, 12, 6044 (Featured Article).
- Bretscher, H., Li, Zhaojun, Xiao, J., Qiu, D. Y., Refaely-Abramson, S., Alexander-Webber, J. A., Tanoh, A., Fan, Y., Delport, G., Williams, C. A., Stranks, S. D., Hofmann, S., Neaton, J. B., Louie, S. G. & Rao, A. (2021). Rational passivation of sulfur vacancy defects in two-dimensional transition metal dichalcogenides. ACS Nano, 15, 8780–8789.
- Li, Zhaojun, Xu, X., Zhang, W., Meng, X., Genene, Z., Ma, W., Mammo, W., Yartsev, A., Andersson, M. R., Janssen, R. A. J. & Wang, E. (2017). 9.0% power conversion efficiency from ternary all-polymer solar cells. Energy & Environmental Science,10, 2212–2221.
- Li, Zhaojun, Zhang, W., Xu, X., Genene, Z., Di Carlo Rasi, D., Mammo, W., Yartsev, A., Andersson, M. R., Janssen, R. A. J. & Wang, E. (2017). High-performance and stable all-polymer solar cells using donor and acceptor polymers with complementary absorption. Advanced Energy Materials, 7, 1602722.
- Li, Zhaojun, Xu, X., Zhang, W., Genene, Z., Mammo, W., Yartsev, A., Andersson, M. R., Janssen, R. A. J. & Wang, E. (2017). High-photovoltage all-polymer solar cells based on a diketopyrrolopyrrole–isoindigo acceptor polymer. Journal of Materials Chemistry A, 5, 11693–11700.
- Li, Zhaojun, Xu, X., Zhang, W., Meng, X., Ma, W., Yartsev, A., Inganäs, O., Andersson, M. R., Janssen, R. A. J. & Wang, E. (2016). High-performance all-polymer solar cells by synergistic effects of fine-tuned crystallinity and solvent annealing. Journal of the American Chemical Society, 138, 10935–10944.
- Wu, Y., Li, Zhaojun, Ma, W., Huang, Y., Huo, L., Guo, X., Zhang, M., Ade, H.& Hou, J. (2013). PDT-S-T: a new polymer with optimized molecular conformation for controlled aggregation and π-π stacking and its application in efficient photovoltaic devices. Advanced Materials, 25, 3449-3455.