1. Janus effect of antifreeze proteins on ice nucleation; Liu K., Wang C., Ma J., Shi G., Yao X., Fang H., Song Y., Wang J. PNAS 2016, 51,14739.
2. Tuning ice nucleation with counterions on polyelectrolyte brush surfaces; He Z., Xie W., Liu Z., Liu G., Wang Z., Gao Y., Wang J., SCIENCE ADVANCES, 2016, 2, e160034.
3. Graphene Oxide Restricts Growth and Recrystallization of Ice Crystals;Geng H., Liu X., Shi G., Bai G., Ma J., Chen J., Wu Z., Song Y., Fang H., Wang J., ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2017, 56, 997.
4. Distinct ice patterns on solid surfaces with various wettabilities; Liu J., Zhu C., Liu K., Jiang Y., Song Y., Francisco J., Zeng X., Wang J., PNAS, 2017, 114, 11285. (highlighted by Nature)
5. Probing the critical nucleus size for ice formation with graphene oxide nanosheets; Bai G., Gao D., Liu Z., Zhou X., Wang J., NATURE, 2019, 576, 437.
6. Liu, Z.; Zheng, X.; Wang, J. Bioinspired Ice-Binding Materials for Tissue and Organ Cryopreservation. J. Am. Chem. Soc. 2022, 144, 5685.