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Stability of perovskite materials and devices
Fu, W., Ricciardulli, A. G., Akkerman, Q. A., John, R. A., Tavakoli, M. M., Essig, S., … Saliba, M. (2022). Stability of perovskite materials and devices. Materials Today, 58, 275-296. https://doi.org/10.1016/j.mattod.2022.06.020
A review on self-healing polymers for soft robotics
Terryn, S., Langenbach, J., Roels, E., Brancart, J., Bakkali-Hassani, C., Poutrel, Q. A., … Vanderborght, B. (2021). A review on self-healing polymers for soft robotics. Materials Today, 47, 187-205. https://doi.org/10.1016/j.mattod.2021.01.009
Porous nanocellulose gels and foams: breakthrough status in the development of scaffolds for tissue engineering
Ferreira, F. V., Otoni, C. G., De France, K. J., Barud, H. S., Lona, L. M. F., Cranston, E. D., & Rojas, O. J. (2020). Porous nanocellulose gels and foams: breakthrough status in the development of scaffolds for tissue engineering. Materials Today, 137, 126-141. https://doi.org/10.1016/j.mattod.2020.03.003
High thermoelectric performance in (Bi<SUB>0.25</SUB>Sb<SUB>0.75</SUB>)<SUB>2</SUB>Te<SUB>3</SUB> due to band convergence and improved by carrier concentration control
Kim, H. S., Heinz, N. A., Gibbs, Z. M., Tang, Y., Kang, S. D., & Snyder, G. J. (2017). High thermoelectric performance in (Bi0.25Sb0.75)2Te3 due to band convergence and improved by carrier concentration control. Materials Today, 20(8), 452-459. https://doi.org/10.1016/j.mattod.2017.02.007
Novel materials through Nature's catalysts
Richter, M., Schulenburg, C., Jankowska, D., Heck, T., & Faccio, G. (2015). Novel materials through Nature's catalysts. Materials Today, 18(8), 459-467. https://doi.org/10.1016/j.mattod.2015.04.002
<I>In-situ</I> nanoindentation in the SEM
Nowak, J. D., Rzepiejewska-Malyska, K., Major, R. C., Warren, O. L., & Michler, J. (2010). In-situ nanoindentation in the SEM. Materials Today, 12(Suppl. 1), 44-45. https://doi.org/10.1016/S1369-7021(10)70144-9