Publications
2024
Modular, multi-robot integration of laboratories: an autonomous workflow for solid-state chemistry.
Lunt, A. M., Fakhruldeen, H., Pizzuto, G., Longley, L., White, A., Rankin, N., . . . Chong, S. Y. (2024). Modular, multi-robot integration of laboratories: an autonomous workflow for solid-state chemistry.. Chemical science, 15(7), 2456-2463. doi:10.1039/d3sc06206f
2023
Modular, Multi-Robot Integration of Laboratories: An Autonomous Solid-State Workflow for Powder X-Ray Diffraction
2020
A mobile robotic chemist
Burger, B., Maffettone, P. M., Gusev, V. V., Aitchison, C. M., Bai, Y., Wang, X., . . . Cooper, A. I. (2020). A mobile robotic chemist. Nature, 583(7815), 237-241. doi:10.1038/s41586-020-2442-2
2019
Accelerated robotic discovery of type II porous liquids
Kearsey, R. J., Alston, B. M., Briggs, M. E., Greenaway, R. L., & Cooper, A. I. (2019). Accelerated robotic discovery of type II porous liquids. CHEMICAL SCIENCE, 10(41), 9454-9465. doi:10.1039/c9sc03316e
From Concept to Crystals via Prediction: Multi‐Component Organic Cage Pots by Social Self‐Sorting
Greenaway, R. L., Santolini, V., Pulido, A., Little, M. A., Alston, B., Briggs, M., . . . Jelfs, K. E. (2019). From Concept to Crystals via Prediction: Multi‐Component Organic Cage Pots by Social Self‐Sorting. Angewandte Chemie (German version), 131(45), 16421-16427. doi:10.1002/ange.201909237
From Concept to Crystals via Prediction: Multi-Component Organic Cage Pots by Social Self-Sorting
Greenaway, R. L., Santolini, V., Pulido, A., Little, M. A., Alston, B. M., Briggs, M. E., . . . Jelfs, K. E. (2019). From Concept to Crystals via Prediction: Multi-Component Organic Cage Pots by Social Self-Sorting. Angewandte Chemie International Edition, 58(45), 16275-16281. doi:10.1002/anie.201909237
Mining predicted crystal structure landscapes with high throughput crystallisation: old molecules, new insights
Cui, P., McMahon, D. P., Spackman, P. R., Alston, B. M., Little, M. A., Day, G. M., & Cooper, A. I. (2019). Mining predicted crystal structure landscapes with high throughput crystallisation: old molecules, new insights. CHEMICAL SCIENCE, 10(43), 9988-9997. doi:10.1039/c9sc02832c
From Concept to Crystals via Prediction: Multi-Component Organic Cage Pots by Social Self-Sorting
From Concept to Crystals via Prediction: Multi-Component Organic Cage Pots by Social Self-Sorting
Accelerated Robotic Discovery of Type II Porous Liquids
Accelerated Robotic Discovery of Type II Porous Liquids
Mining Predicted Crystal Structure Landscapes with High Throughput Crystallization: Old Molecules, New Insights
Mining Predicted Crystal Structure Landscapes with High Throughput Crystallization: Old Molecules, New Insights
2018
Computationally-inspired discovery of an unsymmetrical porous organic cage
Berardo, E., Greenaway, R. L., Turcani, L., Alston, B. M., Bennison, M. J., Miklitz, M., . . . Jelfs, K. E. (2018). Computationally-inspired discovery of an unsymmetrical porous organic cage. NANOSCALE, 10(47), 22381-22388. doi:10.1039/c8nr06868b
Functionalised microscale nanoband edge electrode (MNEE) arrays: the systematic quantitative study of hydrogels grown on nanoelectrode biosensor arrays for enhanced sensing in biological media
Piper, A., Alston, B. M., Adams, D. J., & Mount, A. R. (2018). Functionalised microscale nanoband edge electrode (MNEE) arrays: the systematic quantitative study of hydrogels grown on nanoelectrode biosensor arrays for enhanced sensing in biological media. FARADAY DISCUSSIONS, 210, 201-217. doi:10.1039/c8fd00063h
Computationally-Inspired Discovery of an Unsymmetrical Porous Organic Cage
Computationally-Inspired Discovery of an Unsymmetrical Porous Organic Cage
High-throughput discovery of organic cages and catenanes using computational screening fused with robotic synthesis
Greenaway, R. L., Santolini, V., Bennison, M. J., Alston, B. A., Pugh, C. J., Little, M. A., . . . Cooper, A. I. (2018). High-throughput discovery of organic cages and catenanes using computational screening fused with robotic synthesis. Nature Communications, 9. doi:10.1038/s41467-018-05271-9
Maximising the hydrogen evolution activity in organic photocatalysts by co-polymerisation
Sprick, R. S., Aitchison, C. M., Berardo, E., Turcani, L., Wilbraham, L., Alston, B. M., . . . Cooper, A. I. (2018). Maximising the hydrogen evolution activity in organic photocatalysts by co-polymerisation. JOURNAL OF MATERIALS CHEMISTRY A, 6(25), 11994-12003. doi:10.1039/c8ta04186e
2017
Computationally-Guided Synthetic Control over Pore Size in Isostructural Porous Organic Cages
Slater, A. G., Reiss, P. S., Pulido, A., Little, M. A., Holden, D. L., Chen, L., . . . Cooper, A. I. (2017). Computationally-Guided Synthetic Control over Pore Size in Isostructural Porous Organic Cages. ACS CENTRAL SCIENCE, 3(7), 734-742. doi:10.1021/acscentsci.7b00145
2016
Porosity-engineered carbons for supercapacitive energy storage using conjugated microporous polymer precursors
Lee, J. -S. M., Wu, T. -H., Alston, B. M., Briggs, M. E., Hasell, T., & Cooper, A. I. (2016). Porosity-engineered carbons for supercapacitive energy storage using conjugated microporous polymer precursors. Journal of Materials Chemistry A, 4(20), 7665-7673. doi:10.1039/c6ta02319c
2015
Polymerization of low molecular weight hydrogelators to form electrochromic polymers
Kubiak, P. S., Awhida, S., Hotchen, C., Deng, W., Alston, B., McDonald, T. O., . . . Cameron, P. J. (2015). Polymerization of low molecular weight hydrogelators to form electrochromic polymers. CHEMICAL COMMUNICATIONS, 51(52), 10427-10430. doi:10.1039/c5cc03053f
Novel Lipophilic Probe for Detecting Near-Membrane Reactive Oxygen Species Responses and Its Application for Studies of Pancreatic Acinar Cells: Effects of Pyocyanin and L-Ornithine
Chvanov, M., Huang, W., Jin, T., Wen, L., Armstrong, J., Elliot, V., . . . Tepikin, A. (2015). Novel Lipophilic Probe for Detecting Near-Membrane Reactive Oxygen Species Responses and Its Application for Studies of Pancreatic Acinar Cells: Effects of Pyocyanin and L-Ornithine. Antioxidants & Redox Signaling, 22(6), 451-464. doi:10.1089/ars.2013.5589
2014
Electrochemically-triggered spatially and temporally resolved multi-component gels
Raeburn, J., Alston, B., Kroeger, J., McDonald, T. O., Howse, J. R., Cameron, P. J., & Adams, D. J. (2014). Electrochemically-triggered spatially and temporally resolved multi-component gels. Materials Horizons, 1(2), 241-246. doi:10.1039/c3mh00150d