Rosales-Reina, B.; Cruz-Quesada, G.; Padilla-Postigo, N.; Irigoyen-Razquin, M.; Alonso-MartÃnez, E.; López-Ramón, M.V.; Espinal-Viguri, M.; Garrido, J.J.
Tunability of Hybrid Silica Xerogels: Surface Chemistry and Porous Texture Based on the Aromatic Precursor. Gels 2023, 9, 382.
https://doi.org/10.3390/gels9050382
AMA Style
Rosales-Reina B, Cruz-Quesada G, Padilla-Postigo N, Irigoyen-Razquin M, Alonso-MartÃnez E, López-Ramón MV, Espinal-Viguri M, Garrido JJ.
Tunability of Hybrid Silica Xerogels: Surface Chemistry and Porous Texture Based on the Aromatic Precursor. Gels. 2023; 9(5):382.
https://doi.org/10.3390/gels9050382
Chicago/Turabian Style
Rosales-Reina, Beatriz, Guillermo Cruz-Quesada, Nataly Padilla-Postigo, Marian Irigoyen-Razquin, Ester Alonso-MartÃnez, MarÃa Victoria López-Ramón, Maialen Espinal-Viguri, and Julián J. Garrido.
2023. "Tunability of Hybrid Silica Xerogels: Surface Chemistry and Porous Texture Based on the Aromatic Precursor" Gels 9, no. 5: 382.
https://doi.org/10.3390/gels9050382
APA Style
Rosales-Reina, B., Cruz-Quesada, G., Padilla-Postigo, N., Irigoyen-Razquin, M., Alonso-MartÃnez, E., López-Ramón, M. V., Espinal-Viguri, M., & Garrido, J. J.
(2023). Tunability of Hybrid Silica Xerogels: Surface Chemistry and Porous Texture Based on the Aromatic Precursor. Gels, 9(5), 382.
https://doi.org/10.3390/gels9050382
