Our Publications
AlCl4−-Deficient Eutectic Electrolytes Enable Reversible Iodine Redox-Amphoteric Conversion for Aluminum Battery Cathodes
Chu, X., Lu, S., Ghouse, S., Zhang, J., Khan, A. H., Du, J., Li, X., Gao, B., Liu, X., Morag, A., Song, X., Li, D., Zheng, L., Guo, Q., Wang, M., Brunner, E., Feng, X., & Yu, M. AlCl4−-Deficient Eutectic Electrolytes Enable Reversible Iodine Redox-Amphoteric Conversion for Aluminum Battery Cathodes. Angewandte Chemie – International Edition
Compact Photostorage Systems: New Materials and Designs for Integrated Energy Harvesting and Storage
Mirone, A., Cartabia, L., Martin, I., Rubino, A., Kriegel, I., & Gatti, T.. Solar RRL, 10.
Hydrate-melt electrolyte design for aqueous aluminium-bromine batteries with enhanced energy-power merits.
Chu, X., Du, J., Zhang, J., Li, X., Liu, X., Wang, Y., Hunger, J., Morag, A., Liu, J., Guo, Q., Li, D., Han, Y., Bonn, M., Feng, X., & Yu, M. Nature Communications, 16
Shell Engineering of ITO Nanocrystals via Seed-Mediated Growth and Precursor Crowding for Broadband Visible-to-Infrared Absorption.
Ranjan, P., Rebecchi, L., Muraleedharan, A. P., Pasquale, L., Leoncino, L., Brescia, R., Martin, I., Ghini, M., Rubino, A., Curreli, N., Petrini, N., Pirri, C. F., & Kriegel, I. Chemistry of Materials
F. Temperature-driven tunability of a vanadium dioxide-based microcavity made of random sequences of layers.
Scotognella, F. Transactions of Materials Research.
Triphasic synthesis of MXenes with uniform and controlled halogen terminations.
Li, D., Zheng, W., Ghorbani-Asl, M., Scheiter, J., Sobczak, K., Kretschmer, S., Polčák, J., Jadhao, P. H., Michałowski, P. P., Yu, R., Zhang, J., Liu, J., Du, J., Guo, Q., Zschech, E., & Šikola, T. Nature Synthesis