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High-efficiency stretchable light-emitting polymers from thermally activated delayed fluorescence.

Liu, W.†, Zhang, C.†, Alessandri, R., Diroll, T. B., Li, Y, Fan, X.-C, Wang, K., Cho, H., Liu, Y.-D., Dai, Y.-H., Su, Q., Li, N., Li, S.-S, Wai, S., Xu, J., Zhang, X.-H, Talapin, V. D., de Pablo, J. J., Wang, S.-H.

Nat. Mater22, 737–745 (2023).

Enabling efficient electron injection in stretchable OLED.

Liu, W.†, Zhang, C.†, Zhang, Z.-M.,†, Li, Y., Wai, S., Vriza, A., Dai, Y.-H, Wang, G., Wang, Y.-F., Diroll, B.T., Shan, N.-S., Li, S.-S., Chen, D., Guo, P.-J., Zhu, C.-H., Xu, J., de Pablo, J. J., Wang, S.-H.

Nat. Mater. 25, 472–480 (2026).

Depolymerizable and recyclable luminescent polymers with high light-emitting efficiencies.

Liu, W.†, Wu, Y.-K.†, Vriza, K., Zhang C., Diroll, T. B., Li, Y., Guo P. J., Mei J.-G., Wang, S.-H., Xu, J.

Nat. Sustain. 7, 1048–1056 (2024).

Approaching-unity PLQY and high stretchability in polymer emitters via molecular spacers.

Wang, G.†, Liu, W.†✉, Zhang, Z., Zhang, C., Diroll, B. T., Shan, N., Li, Y., Azmir, M. S. N. A., Gu, X. & Wang, S.

Nat. Commun. (2026). DOI: 10.1038/s41467-026-73223-9.

Hybrid liquid metal cathode enables high-performance intrinsically stretchable OLEDs.

Lee, W., Liu, W.✉, Zhang C., Shin, S., Lee, J., Jang, J., Park, S., Hong, S., Wang, S.✉, Cho, H.✉

Adv. Mater. 37, e18254 (2025). 

Intrinsically stretchable electroluminescent materials.

Liu, W., Wang, G., Wang, S.-H.

CCS Chem. 6, 1360–1379 (2024).

Novel strategy to develop exciplex emitters for high-performance OLEDs by employing thermally activated delayed fluorescence materials.

Liu, W., Chen, J.-X., Zheng, C.-J., Wang, K., Chen, D.-Y., Li, F., Dong, Y.-P., Lee, C.-S., Ou, X.-M. Zhang, X.-H.

Adv. Funct. Mater. 26, 2002-2008 (2016).

Tricomponent exciplex emitter realizing over 20% external quantum efficiency in organic light-emitting diode with multiple reverse intersystem crossing channels.

Zhang, M.†, Liu, W.†, Zheng, C. J., Wang, K., Shi, Y. Z., Li, X., Lin, H., Tao, S. L. Zhang, X.-H.

Adv. Sci. 6, 1801938, (2019).