2022

Das, Satarupa, Zhang, Jinfang, Chamberlain, Thomas W., Clarkson, Guy J. and Walton, Richard I. (2022) Nonredox CO 2 fixation in solvent-free conditions using a Lewis acid metal–organic framework constructed from a sustainably sourced ligand. Inorganic Chemistry, 61 (46). pp. 18536-18544. doi:10.1021/acs.inorgchem.2c02749

Das, Satarupa, Zhang, Jinfang, Chamberlain, Thomas W., Clarkson, Guy J. and Walton, Richard I. (2022) Nonredox CO2 fixation in solvent-free conditions using a Lewis acid metal–organic framework constructed from a sustainably sourced ligand. Inorganic Chemistry, 61 (46). pp. 18536-18544. doi:10.1021/acs.inorgchem.2c02749

Perrella, R. V., Walker, Marc, Chamberlain, T. W., Walton, R. I. and de Sousa, P. C. (2022) The influence of defects on the luminescence of trivalent terbium in nanocrystalline yttrium orthovanadate. Nano Letters, 22 (9). pp. 3569-3575. doi:10.1021/acs.nanolett.1c04937

Chamberlain, Thomas W., Degirmenci, Volkan and Walton, Richard I. (2022) Oxidation of 5‐hydroxymethyl furfural to 2,5‐furan dicarboxylic acid under mild aqueous conditions catalysed by MIL‐100(Fe) metal‐organic framework. ChemCatChem, 14 (7). e202200135. doi:10.1002/cctc.202200135

Chamberlain, Thomas W., Perrella, Rafael V., Oliveira, Tamires M., de Sousa Filho, Paulo C. and Walton, Richard I. (2022) A highly stable yttrium organic framework as a host for optical thermometry and D2O detection. Chemistry – A European Journal, 28 (19). e202200410. doi:10.1002/chem.202200410

Chamberlain, Thomas W., Degirmenci, Volkan and Walton, Richard I. (2022) Data for Oxidation of 5‐hydroxymethyl furfural to 2,5‐furan dicarboxylic acid under mild aqueous conditions catalysed by MIL‐100(Fe) metal‐organic framework. [Dataset]

2021

Chamberlain, Thomas William (2021) Oxidation of biomass-derived chemicals over redox active metalorganic frameworks. PhD thesis, University of Warwick.

Oozeerally, Ryan, Burnett, Dave L., Chamberlain, Thomas W., Kashtiban, Reza J., Huband, Steven, Walton, Richard I. and Degirmenci, Volkan (2021) Systematic modification of UiO‐66 metal‐organic frameworks for glucose conversion into 5‐hydroxymethyl furfural in water. ChemCatChem, 13 (10). pp. 2517-2529. doi:10.1002/cctc.202001989

Oozeerally, Ryan, Burnett, David L., Chamberlain, Thomas W., Kashtiban, Reza J., Huband, Steven, Walton, Richard I. and Degirmenci, Volkan (2021) Data for Systematic modification of UiO‐66 metal‐organic frameworks for glucose conversion into 5‐hydroxymethyl furfural in water. [Dataset]

2019

Burnett, David L., Oozzeerally, Ryan, Pertiwi, Ralentri, Chamberlain, Thomas W., Cherkasov, Nikolay, Clarkson, Guy J., Krisnandi, Yuni, Degirmenci, Volkan and Walton, Richard I. (2019) A hydrothermally stable Ytterbium metal-organic framework as a bifunctional solid-acid catalyst for glucose conversion. Chemical Communications, 55 (76). pp. 11446-11449. doi:10.1039/C9CC05364F

Burnett, David, Oozeerally, Ryan, Pertiwi, Ralentri, Chamberlain, Thomas W., Cherkasov, Nikolay, Clarkson, Guy J., Krisnandi, Yuni, Degirmenci, Volkan and Walton, Richard I. (2019) Data for A hydrothermally stable ytterbium metal-organic framework as a bifunctional solid-acid catalyst for glucose conversion. [Dataset]

Pertiwi, Ralentri, Oozeerally, Ryan, Burnett, David L., Chamberlain, Thomas W., Cherkasov, Nikolay, Walker, Marc, Kashtiban, Reza J., Krisnandi, Yuni K., Degirmenci, Volkan and Walton, Richard I. (2019) Data for Replacement of chromium by non-toxic metals in Lewis-Acid MOFs: assessment of stability as glucose conversion catalysts. [Dataset]

Pertiwi, Ralentri, Oozeerally, Ryan, Burnett, David L., Chamberlain, Thomas W., Cherkasov, Nikolay, Walker, Marc, Kashtiban, Reza J., Krisnandi, Yuni K., Degirmenci, Volkan and Walton, Richard I. (2019) Replacement of chromium by non-toxic metals in Lewis-Acid MOFs : assessment of stability as glucose conversion catalysts. Catalysts, 9 (5). 437. doi:10.3390/catal9050437