Items where Author is "Hamilton, Alex"
Number of items: 7.
JARABA CABRERA, Diego, LEWIS, Ryan, DÍEZ-POZA, Carlos, ALVAREZ-MIGUEL, Lucia, MOSQUERA, Marta Elena Gonzalez, HAMILTON, Alex and WHITEOAK, Christopher J
(2023).
Group 13 Salphen compounds (In, Ga and Al): A comparison of their structural features and activities as catalysts for cyclic carbonate synthesis.
Dalton Transactions.
[Article]
CABRERA, Diego Jaraba, LEWIS, Ryan, DÍEZ-POZA, Carlos, ÁLVAREZ-MIGUEL, Lucía, MOSQUERA, Marta E. G., HAMILTON, Alex and WHITEOAK, Christopher J.
(2023).
Group 13 salphen compounds (In, Ga and Al): a comparison of their structural features and activities as catalysts for cyclic carbonate synthesis †.
Dalton Transactions.
[Article]
ÁLVAREZ‐MIGUEL, Lucía, BURGOA, Jesús Damián, MOSQUERA, Marta E. G., HAMILTON, Alex and WHITEOAK, Christopher J.
(2021).
Catalytic Formation of Cyclic Carbonates using Gallium Aminotrisphenolate Compounds and Comparison to their Aluminium Congeners: A Combined Experimental and Computational Study.
ChemCatChem, 13.
[Article]
CHU, Melody, PLANAS, Oriol, COMPANY, Anna, RIBAS, Xavi, HAMILTON, Alex and WHITEOAK, Christopher
(2019).
Unravelling the mechanism of cobalt-catalysed remote C-H nitration of 8-aminoquinolinamides and expansion of substrate scope towards 1-naphthylpicolinamide.
Chemical Science.
[Article]
LISTER, Julia M., CARREIRA, Monica, HADDOW, Mairi F., HAMILTON, Alex, MCMULLIN, Claire L., ORPEN, A. Guy, PRINGLE, Paul G. and STENNETT, Tom E.
(2014).
Unexpectedly high barriers to M–P rotation in tertiary phobane complexes : PhobPR behavior that is commensurate with tBu2PR.
Organometallics, 33 (3), 702-714.
[Article]
HAMILTON, Alex, GICQUEL, Michael, BALLESTER, Pablo and BO, Carles
(2013).
Mechanisms of catalysis in confined spaces: hydrogenation of norbornadiene with a rhodium complex included in a self-folding cavitand.
Current Organic Chemistry, 17 (14), 1499-1506.
[Article]
TSOUREAS, Nikolaos, NUNN, Joshua, BEVIS, Thomas, HADDOW, Mairi F., HAMILTON, Alex and OWEN, Gareth R.
(2011).
Strong agostic-type interactions in ruthenium benzylidene complexes containing 7-azaindole based scorpionate ligands.
Dalton Transactions, 40 (4), 951-958.
[Article]