Browse by Glasgow Author

Group by: Date | Item Type | Keywords | Funder's Name | No Grouping
Number of items: 10.

Engineering and Physical Sciences Research Council (EPSRC)

Liao, Z. , Das, A., Glenn Robb, C., Beveridge, R. and Wynne, K. (2024) Amorphous aggregates with a very wide size distribution play a central role in crystal nucleation. [Data Collection]

Liao, Z. , Das, A., Glenn Robb, C., Beveridge, R. and Wynne, K. (2024) Amorphous aggregates with a very wide size distribution play a central role in crystal nucleation. [Data Collection]

González-Jiménez, M. , Liao, Z. , Lloyd Williams, E. and Wynne, K. (2023) Lifting Hofmeister’s curse: Impact of cations on diffusion, hydrogen bonding and clustering of water. [Data Collection]

González-Jiménez, M. , Liao, Z. , Lloyd Williams, E. and Wynne, K. (2023) Lifting Hofmeister’s curse: Impact of cations on diffusion, hydrogen bonding and clustering of water. [Data Collection]

Liao, Z. and Wynne, K. (2022) A metastable amorphous intermediate is responsible for laser-induced nucleation of glycine. [Data Collection]

Liao, Z. and Wynne, K. (2022) A metastable amorphous intermediate is responsible for laser-induced nucleation of glycine. [Data Collection]

European Commission (EC)

Liao, Z. , Das, A., Glenn Robb, C., Beveridge, R. and Wynne, K. (2024) Amorphous aggregates with a very wide size distribution play a central role in crystal nucleation. [Data Collection]

González-Jiménez, M. , Liao, Z. , Lloyd Williams, E. and Wynne, K. (2023) Lifting Hofmeister’s curse: Impact of cations on diffusion, hydrogen bonding and clustering of water. [Data Collection]

Liao, Z. and Wynne, K. (2022) A metastable amorphous intermediate is responsible for laser-induced nucleation of glycine. [Data Collection]

Leverhulme Trust (LEVERHUL)

González-Jiménez, M. , Liao, Z. , Lloyd Williams, E. and Wynne, K. (2023) Lifting Hofmeister’s curse: Impact of cations on diffusion, hydrogen bonding and clustering of water. [Data Collection]

This list was generated on Sun Dec 22 11:06:04 2024 GMT.