Ke, K., Sang, Z., & Manas-Zloczower, I.(2020).Hybrid Systems of 3D Carbon Nanostructures with Low Dimensional Fillers for Piezoresistive Sensors. Polymer Composites, 41(2), 468-477.
Ke, K., Sang, Z., & Manas-Zloczower, I.(2020).Hybrid systems of three-dimensional carbon nanostructures with low dimensional fillers for piezoresistive sensors. Polymer Composites, 41(2), 468-477.
De Oliveira, F., Khani, S., Maia, J. M., & Tavares, F.(2020).Concentration and Solvent Effects on Structural, Dynamical, and Rheological Properties of Asphaltene Suspensions. Energy and Fuels, 34(1), 1071-1081.
Bohannon, C., Kwok, M., Li, R., Zhu, L., & Zhao, B.(2020).Effects of tacticity and chiral center-to-dipole distance on mesogen-free liquid crystalline self-assembly of sulfonyl-containing comb-like polymers. Polymer Chemistry, 11(17), 3018-3031.
Wen, J., Pan, M., Yuan, J., Wang, J., Zhu, L., Jia, Z., ... Song, S.(2020).Facile fabrication of dual-crosslinked single network heterostructural polyurethane hydrogels with superior mechanical and fluorescent performance. Reactive and Functional Polymers, 146().
Chen, X., Allahyarov, E., Langhe, D., Ponting, M., Li, R., Fukuto, M., ... Zhu, L.(2020).Reducing dielectric loss and enhancing electrical insulation for multilayer polymer films by nanoconfined ion transport under high poling electric fields. Journal of Materials Chemistry C, 8(18), 6102-6117.
Zhang, Z., Zheng, J., Premasiri, K., Kwok, M., Li, Q., Li, R., ... Zhu, L.(2020).High- ? polymers of intrinsic microporosity: a new class of high temperature and low loss dielectrics for printed electronics. Materials Horizons, 7(2), 592-597.
Paiva, F., Secchi, A., Calado, V., Maia, J. M., & Khani, S.(2020).Slip and momentum transfer mechanisms mediated by Janus rods at polymer interfaces. Soft Matter, 16(28), 6662-6672.
Lyu, Y., Rachita, E., Pogharian, N., Froimowicz, P., & Ishida, H.(2020).Electronic effects of asymmetric and meta-alkoxy substituents on the polymerization behavior of bis-benzoxazines. Polymer Chemistry, 11(4), 800-809.
Miller, C., Zorman, C., & Wnek, G. E.(2020).An Improved Tactile Sensing Device for Material Characterization via Friction-Induced Vibrations. Sensors and Actuators A: Physical, 303(2020), 111824.