|
(1) Tang, H., Yan, C., Karuthedath, S., Yin, H., Gao, Y., Gao, J., Zhang, L., Huang, J., So, KS., Kan Z.*, Laquai, F., Li, G.*, Lu, S.*, (2019), Deciphering the Role of Fluorination: Morphological Manipulation Prompts Charge Separation and Reduces Carrier Recombination in All‐Small‐Molecule Photovoltaics. Solar RRL.
(2) Duan, T., Gao, J., Babics, M., Kan, Z.*, Zhong, C.*, Singh, R., Yu, D., Lee, J., Xiao, Z., Lu, S.*, (2019), Di‐fluorinated Oligothiophenes for High‐Efficiency All‐Small‐Molecule Organic Solar Cells: Positional Isomeric Effect of Fluorine Substitution on Performance Variations. Solar RRL.
(3) Lv, J., Feng, Y., Fu, J., Gao, J., Singh, R., Kumar, M., Kim, M., Tang, H., Lu S.*, Zhang, W., McCulloch, I., Li, J.*, Kan, Z.*, (2019). Energetic Disorder and Activation Energy in Efficient Ternary Organic Solar Cells with Nonfullerene Acceptor Eh‐IDTBR as the Third Component. Solar RRL, 1900403.
(4) Tang, H., Xu, T., Yan, C., Gao, J., Yin, H., Lv, J., Singh, R., Kumar, M., Duan, T., Kan, Z.*, Lu, S.*, Li, G.*, (2019). Donor Derivative Incorporation: An Effective Strategy toward High Performance All‐Small‐Molecule Ternary Organic Solar Cells. Advanced Science, 6(21), 1901613.
(5) Duan, T., Tang, H., Liang, R.Z., Lv, J., Kan, Z.*, Singh, R., Kumar, M., Xiao, Z., Lu, S. * and Laquai, F., (2019). Terminal group engineering for small-molecule donors boosts the performance of nonfullerene organic solar cells. Journal of Materials Chemistry A, 7(6), pp.2541-2546.
(6) Wang, K., Lv, J., Duan, T.*, Li, Z., Yang, Q., Fu, J., Meng, W., Xu, T., Xiao, Z., Kan, Z*. and Sun, K., Lu, S. * (2019). Simple Near-infrared Non-fullerene Acceptors Enable Organic Solar Cells with Over 9% Efficiency. ACS applied materials & interfaces.
(7) Ye, T.*, Jin, S., Kang, C., Tian, C., Zhang, X., Zhan, C.*, Lu, S. and Kan, Z.*, (2018). Comparison study of Wide Bandgap Polymer (PBDB-T) and Narrow Bandgap Polymer PBDTTT-EFT) as Donor for Perylene Diimide Based Polymer Solar Cells. Frontiers in chemistry, 6, p.613. |
