Publications
2024
Investigating the Effect of UV Irradiation and TiO2 Addition on Heavy Metal Adsorption by Inverse Vulcanized Sulfur Polymers.
Cai, D., Dale, J. J., Petcher, S., Wu, X., & Hasell, T. (2024). Investigating the Effect of UV Irradiation and TiO2 Addition on Heavy Metal Adsorption by Inverse Vulcanized Sulfur Polymers.. Chemistry (Weinheim an der Bergstrasse, Germany), 30(71), e202402194. doi:10.1002/chem.202402194
Water‐Soluble Ionic Liquid‐Containing Sulfur Polymers for Mercury Capture, Demulsification, and Antibacterial Activity
Deng, X., Dop, R. A., Cai, D., Neill, D. R., & Hasell, T. (2024). Water‐Soluble Ionic Liquid‐Containing Sulfur Polymers for Mercury Capture, Demulsification, and Antibacterial Activity. Advanced Functional Materials, 34(19). doi:10.1002/adfm.202311647
Solvated Inverse vulcanisation by photopolymerisation
Jia, J., Yan, P., Cai, S. D., Cui, Y., Xun, X., Liu, J., . . . Quan, Z. -J. (2024). Solvated Inverse vulcanisation by photopolymerisation. European Polymer Journal, 207, 112815. doi:10.1016/j.eurpolymj.2024.112815
Water Soluble, Ionically Generated Thiopolymers
Dale, J. J., Smith, M. W., & Hasell, T. (2024). Water Soluble, Ionically Generated Thiopolymers. Advanced Functional Materials. doi:10.1002/adfm.202314567
2023
Liquid polybutadiene reinforced inverse vulcanised polymers
Hanna, V., Graysmark, M., Willcock, H., & Hasell, T. (n.d.). Liquid polybutadiene reinforced inverse vulcanised polymers. Journal of Materials Chemistry A, 12(2), 1211-1217. doi:10.1039/d3ta05470e
Improving the performance of post-consumer resin feedstocks for rigid packaging applications: A pilot-scale assessment
McLauchlin, A. R., Hall, D., Feldman, D., Anderson, P., Newman, M., Hasell, T., & McDonald, T. O. (2023). Improving the performance of post-consumer resin feedstocks for rigid packaging applications: A pilot-scale assessment. Resources, Conservation and Recycling, 199, 107209. doi:10.1016/j.resconrec.2023.107209
Processable crosslinked terpolymers made from elemental sulfur with wide range of thermal and mechanical properties
Yan, P., Wang, H., Dodd, L. J., & Hasell, T. (n.d.). Processable crosslinked terpolymers made from elemental sulfur with wide range of thermal and mechanical properties. Communications Materials, 4(1). doi:10.1038/s43246-023-00417-9
Manipulating Inverse Vulcanization Comonomers to Generate High-Tensile-Strain Polymers
Dale, J. J., Hanna, V., & Hasell, T. (2023). Manipulating Inverse Vulcanization Comonomers to Generate High-Tensile-Strain Polymers. ACS Applied Polymer Materials, 5(9), 6761-6765. doi:10.1021/acsapm.3c01378
Inverse vulcanisation of self-activating amine and alkyne crosslinkers
Dodd, L. J., Sandy, W., Dop, R. A., Zhang, B., Lunt, A., Neill, D. R., & Hasell, T. (2023). Inverse vulcanisation of self-activating amine and alkyne crosslinkers. POLYMER CHEMISTRY, 14(35), 4064-4078. doi:10.1039/d3py00757j
Sulfur-rich polymers with heating/UV light-responsive shape memory and temperature-modulated self-healing
Yang, Z., Yan, P., Li, X., Miao, C., Cai, S. D., Ji, W., . . . Song, P. (2023). Sulfur-rich polymers with heating/UV light-responsive shape memory and temperature-modulated self-healing. POLYMER CHEMISTRY, 14(32), 3686-3694. doi:10.1039/d3py00724c
Exploring inverse vulcanisation mechanisms from the perspective of dark sulfur
Dale, J. J., Stanley, J., Dop, R. A., Chronowska-Bojczuk, G., Fielding, A. J., Neill, D. R., & Hasell, T. (2023). Exploring inverse vulcanisation mechanisms from the perspective of dark sulfur. European Polymer Journal, 195, 112198. doi:10.1016/j.eurpolymj.2023.112198
Sulfur-Polymer Nanoparticles: Preparation and Antibacterial Activity
Dop, R. A., Neill, D. R., & Hasell, T. (2023). Sulfur-Polymer Nanoparticles: Preparation and Antibacterial Activity. ACS APPLIED MATERIALS & INTERFACES, 15(17), 20822-20832. doi:10.1021/acsami.3c03826
Raman analysis of inverse vulcanised polymers
Dodd, L. J., Lima, C., Costa-Milan, D., Neale, A. R., Saunders, B., Zhang, B., . . . Hasell, T. (2023). Raman analysis of inverse vulcanised polymers. POLYMER CHEMISTRY, 14(12), 1369-1386. doi:10.1039/d2py01408d
2022
Photoinduced inverse vulcanization
Jia, J., Liu, J., Wang, Z. -Q., Liu, T., Yan, P., Gong, X. -Q., . . . Quan, Z. -J. (2022). Photoinduced inverse vulcanization. Nature Chemistry. doi:10.1038/s41557-022-01049-1
Oxygen heteroatom enhanced sulfur-rich polymers synthesized by inverse vulcanization for high-performance lithium-sulfur batteries
Wang, H., Zhang, B., Dop, R., Yan, P., Neale, A. R., Hardwick, L. J., & Hasell, T. (2022). Oxygen heteroatom enhanced sulfur-rich polymers synthesized by inverse vulcanization for high-performance lithium-sulfur batteries. JOURNAL OF POWER SOURCES, 545. doi:10.1016/j.jpowsour.2022.231921
Mechanochemical synthesis of inverse vulcanized polymers
Yan, P., Zhao, W., McBride, F., Cai, D., Dale, J., Hanna, V., & Hasell, T. (2022). Mechanochemical synthesis of inverse vulcanized polymers. NATURE COMMUNICATIONS, 13(1). doi:10.1038/s41467-022-32344-7
Fabrication of TiN-Based Superhydrophobic Anti-Corrosion Coating by Inverse Vulcanization
Miao, C., Yan, P., Liu, H., Cai, S. D., Dodd, L. J., Wang, H., . . . Quan, Z. -J. (2022). Fabrication of TiN-Based Superhydrophobic Anti-Corrosion Coating by Inverse Vulcanization. Bulletin of the Chemical Society of Japan, 95(8), 1253-1262. doi:10.1246/bcsj.20220142
Inverse Vulcanization with SiO<sub>2</sub>-Embedded Elemental Sulfur for Superhydrophobic, Anticorrosion, and Antibacterial Coatings
Miao, C., Xun, X., Dodd, L. J., Niu, S., Wang, H., Yan, P., . . . Quan, Z. -J. (2022). Inverse Vulcanization with SiO<sub>2</sub>-Embedded Elemental Sulfur for Superhydrophobic, Anticorrosion, and Antibacterial Coatings. ACS APPLIED POLYMER MATERIALS. doi:10.1021/acsapm.2c00490
Incorporation of fillers to modify the mechanical performance of inverse vulcanised polymers
Hanna, V., Yan, P., Petcher, S., & Hasell, T. (2022). Incorporation of fillers to modify the mechanical performance of inverse vulcanised polymers. POLYMER CHEMISTRY, 13(26), 3930-3937. doi:10.1039/d2py00321j
Inverse vulcanised sulfur polymer nanoparticles prepared by antisolvent precipitation
Zhang, B., Petcher, S., Dop, R. A., Yan, P., Zhao, W., Wang, H., . . . Hasell, T. (2022). Inverse vulcanised sulfur polymer nanoparticles prepared by antisolvent precipitation. JOURNAL OF MATERIALS CHEMISTRY A, 10(26), 13704-13710. doi:10.1039/d2ta01653b
Dark Sulfur: Quantifying Unpolymerized Sulfur in Inverse Vulcanized Polymers
Dale, J. J., Petcher, S., & Hasell, T. (2022). Dark Sulfur: Quantifying Unpolymerized Sulfur in Inverse Vulcanized Polymers. ACS Applied Polymer Materials, 4(5), 3169-3173. doi:10.1021/acsapm.2c00304
Investigating the viability of sulfur polymers for the fabrication of photoactive, antimicrobial, water repellent coatings
Upton, R. L., Dop, R. A., Sadler, E., Lunt, A. M., Neill, D. R., Hasell, T., & Crick, C. R. (2022). Investigating the viability of sulfur polymers for the fabrication of photoactive, antimicrobial, water repellent coatings. JOURNAL OF MATERIALS CHEMISTRY B. doi:10.1039/d2tb00319h
Mechanochemical synthesis of inverse vulcanized polymers
Yan, P., Zhao, W., McBride, F., Cai, D., Dale, J., & Hasell, T. (2022). Mechanochemical synthesis of inverse vulcanized polymers. doi:10.21203/rs.3.rs-1296181/v1
Stretchable and Durable Inverse Vulcanized Polymers with Chemical and Thermal Recycling
Yan, P., Zhao, W., Tonkin, S. J., Chalker, J. M., Schiller, T. L., & Hasell, T. (n.d.). Stretchable and Durable Inverse Vulcanized Polymers with Chemical and Thermal Recycling. Chemistry of Materials. doi:10.1021/acs.chemmater.1c03662
Mechanochemical synthesis of inverse vulcanized polymers
Dark Sulfur: Quantifying unpolymerized sulfur in inverse vulcanized polymers
2021
Antibacterial Activity of Inverse Vulcanized Polymers.
Dop, R. A., Neill, D. R., & Hasell, T. (2021). Antibacterial Activity of Inverse Vulcanized Polymers.. Biomacromolecules, 22(12), 5223-5233. doi:10.1021/acs.biomac.1c01138
Processes for coating surfaces with a copolymer made from sulfur and dicyclopentadiene
Mann, M., Zhang, B., Tonkin, S. J., Gibson, C. T., Jia, Z., Hasell, T., & Chalker, J. M. (2021). Processes for coating surfaces with a copolymer made from sulfur and dicyclopentadiene. POLYMER CHEMISTRY, 13(10), 1320-1327. doi:10.1039/d1py01416a
Magnetic sulfur-doped carbons for mercury adsorption
Zhang, B., Petcher, S., Gao, H., Yan, P., Cai, D., Fleming, G., . . . Hasell, T. (2021). Magnetic sulfur-doped carbons for mercury adsorption. JOURNAL OF COLLOID AND INTERFACE SCIENCE, 603, 728-737. doi:10.1016/j.jcis.2021.06.129
Stretchable and durable inverse vulcanized polymers with chemical and thermal recycling
Stretchable and durable inverse vulcanized polymers with chemical and thermal recycling
Carbonisation of a polymer made from sulfur and canola oil
Mann, M., Luo, X., Tikoalu, A. D., Gibson, C. T., Yin, Y., Al-Attabi, R., . . . Chalker, J. M. (2021). Carbonisation of a polymer made from sulfur and canola oil. CHEMICAL COMMUNICATIONS, 57(51), 6296-6299. doi:10.1039/d1cc01555a
Mesoporous knitted inverse vulcanised polymers
Petcher, S., Zhang, B., & Hasell, T. (2021). Mesoporous knitted inverse vulcanised polymers. CHEMICAL COMMUNICATIONS, 57(41), 5059-5062. doi:10.1039/d1cc01152a
Investigating the Role and Scope of Catalysts in Inverse Vulcanization
Dodd, L. J., Omar, O., Wu, X., & Hasell, T. (2021). Investigating the Role and Scope of Catalysts in Inverse Vulcanization. ACS CATALYSIS, 11(8), 4441-4455. doi:10.1021/acscatal.0c05010
Mercury capture with an inverse vulcanized polymer formed from garlic oil, a bioderived comonomer
Zhang, B., Dodd, L. J., Yan, P., & Hasell, T. (2021). Mercury capture with an inverse vulcanized polymer formed from garlic oil, a bioderived comonomer. Reactive and Functional Polymers, 161. doi:10.1016/j.reactfunctpolym.2021.104865
Insulating Composites Made from Sulfur, Canola Oil, and Wool**
Najmah, I. B., Lundquist, N. A., Stanfield, M. K., Stojcevski, F., Campbell, J. A., Esdaile, L. J., . . . Chalker, J. M. (2021). Insulating Composites Made from Sulfur, Canola Oil, and Wool**. ChemSusChem: chemistry and sustainability, energy and materials. doi:10.1002/cssc.202100187
2020
Inverse Vulcanized Polymers with Shape Memory, Enhanced Mechanical Properties, and Vitrimer Behavior
Yan, P., Zhao, W., Zhang, B., Jiang, L., Petcher, S., Smith, J. A., . . . Hasell, T. (2020). Inverse Vulcanized Polymers with Shape Memory, Enhanced Mechanical Properties, and Vitrimer Behavior. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 59(32), 13371-13378. doi:10.1002/anie.202004311
Inverse Vulcanized Polymers with Shape Memory, Enhanced Mechanical Properties, and Vitrimer Behavior
Yan, P., Zhao, W., Zhang, B., Jiang, L., Petcher, S., Smith, J. A., . . . Hasell, T. (2020). Inverse Vulcanized Polymers with Shape Memory, Enhanced Mechanical Properties, and Vitrimer Behavior. Angewandte Chemie, 132(32), 13473-13480. doi:10.1002/ange.202004311
Chemically induced repair, adhesion, and recycling of polymers made by inverse vulcanization
Tonkin, S. J., Gibson, C. T., Campbell, J., Lewis, D., Karton, A., Hasell, T., & Chalker, J. M. (2020). Chemically induced repair, adhesion, and recycling of polymers made by inverse vulcanization. CHEMICAL SCIENCE, 11(21), 5537-5546. doi:10.1039/d0sc00855a
Investigating the Antibacterial Properties of Inverse Vulcanized Sulfur Polymers
Smith, J. A., Mulhall, R., Goodman, S., Fleming, G., Allison, H., Raval, R., & Hasell, T. (2020). Investigating the Antibacterial Properties of Inverse Vulcanized Sulfur Polymers. ACS Omega. doi:10.1021/acsomega.9b04267
Inverse vulcanization below the melting point of sulfur
Zhang, B., Gao, H., Yan, P., Petcher, S., & Hasell, T. (n.d.). Inverse vulcanization below the melting point of sulfur. Materials Chemistry Frontiers. doi:10.1039/c9qm00606k
2019
NMR relaxation and modelling study of the dynamics of SF<sub>6</sub> and Xe in porous organic cages
Hakansson, P., Javed, M. A., Komulainen, S., Chen, L., Holden, D., Hasell, T., . . . Telkki, V. -V. (2019). NMR relaxation and modelling study of the dynamics of SF<sub>6</sub> and Xe in porous organic cages. PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 21(44), 24373-24382. doi:10.1039/c9cp04379a
Macroporous sulfur polymers from a sodium chloride porogen—a low cost, versatile remediation material
Petcher, S., Parker, D. J., & Hasell, T. (2019). Macroporous sulfur polymers from a sodium chloride porogen—a low cost, versatile remediation material. Environmental Science: Water Research & Technology, 5(12), 2142-2149. doi:10.1039/c9ew00477g
A ternary system for delayed curing inverse vulcanisation.
Zhang, B., Petcher, S., & Hasell, T. (2019). A ternary system for delayed curing inverse vulcanisation.. Chemical communications (Cambridge, England), 55(72), 10681-10684. doi:10.1039/c9cc04380b
Synthesis of a Large, Shape-Flexible, Solvatomorphic Porous Organic Cage
Teng, B., Little, M. A., Hasell, T., Chong, S. Y., Jelfs, K. E., Clowes, R., . . . Cooper, A. I. (2019). Synthesis of a Large, Shape-Flexible, Solvatomorphic Porous Organic Cage. CRYSTAL GROWTH & DESIGN, 19(7), 3647-3651. doi:10.1021/acs.cgd.8b01761
Crosslinker Copolymerization for Property Control in Inverse Vulcanization.
Smith, J. A., Green, S. J., Petcher, S., Parker, D. J., Zhang, B., Worthington, M. J. H., . . . Hasell, T. (2019). Crosslinker Copolymerization for Property Control in Inverse Vulcanization.. Chemistry (Weinheim an der Bergstrasse, Germany). doi:10.1002/chem.201901619
Catalytic Inverse Vulcanization
Wu, X., Smith, J., Petcher, S., Zhang, B., Parker, D., & Hasell, T. (n.d.). Catalytic Inverse Vulcanization. Nature Communications. doi:10.1038/s41467-019-08430-8
Catalytic inverse vulcanization
Wu, X., Smith, J. A., Petcher, S., Zhang, B., Parker, D. J., & Hasell, T. M. (2019). Catalytic inverse vulcanization. Nature Communications, 10. doi:10.1038/s41467-019-08430-8
2018
Sulfur polymer composites as controlled-release fertilisers
Mann, M., Kruger, J. E., Andari, F., McErlean, J., Gascooke, J. R., Smith, J. A., . . . Chalker, J. M. (2018). Sulfur polymer composites as controlled-release fertilisers. ORGANIC & BIOMOLECULAR CHEMISTRY, 17(7), 1929-1936. doi:10.1039/c8ob02130a
Core–Shell Crystals of Porous Organic Cages
Jiang, S., Du, Y., Marcello, M., Corcoran, E. W., Calabro, D. C., Chong, S. Y., . . . Cooper, A. I. (2018). Core–Shell Crystals of Porous Organic Cages. Angewandte Chemie, 130(35), 11398-11402. doi:10.1002/ange.201803244
Innentitelbild: Core–Shell Crystals of Porous Organic Cages (Angew. Chem. 35/2018)
Jiang, S., Du, Y., Marcello, M., Corcoran, E. W., Calabro, D. C., Chong, S. Y., . . . Cooper, A. I. (2018). Innentitelbild: Core–Shell Crystals of Porous Organic Cages (Angew. Chem. 35/2018). Angewandte Chemie, 130(35), 11250. doi:10.1002/ange.201806818
Inside Cover: Core–Shell Crystals of Porous Organic Cages (Angew. Chem. Int. Ed. 35/2018)
Jiang, S., Du, Y., Marcello, M., Corcoran, E. W., Calabro, D. C., Chong, S. Y., . . . Cooper, A. I. (2018). Inside Cover: Core–Shell Crystals of Porous Organic Cages (Angew. Chem. Int. Ed. 35/2018). Angewandte Chemie International Edition, 57(35), 11082. doi:10.1002/anie.201806818
Core-Shell Crystals of Porous Organic Cages
Jiang, S., Du, Y., Marcello, M., Corcoran Jr, E. W., Calabro, D. C., Chong, S. Y., . . . Cooper, A. I. (2018). Core-Shell Crystals of Porous Organic Cages. Angewandte Chemie International Edition, 57(35), 11228-11232. doi:10.1002/anie.201803244
High Sulfur Content Polymers: The Effect of Crosslinker Structure on Inverse Vulcanization
Smith, J. A., Wu, X., Berry, N. G., & Hasell, T. (2018). High Sulfur Content Polymers: The Effect of Crosslinker Structure on Inverse Vulcanization. JOURNAL OF POLYMER SCIENCE PART A-POLYMER CHEMISTRY, 56(16), 1777-1781. doi:10.1002/pola.29067
Sustainable inverse-vulcanised sulfur polymers (vol 8, pg 27892, 2018)
Parker, D. J., Chong, S. Y., & Hasell, T. (2018). Sustainable inverse-vulcanised sulfur polymers (vol 8, pg 27892, 2018). RSC ADVANCES, 8(53), 30429. doi:10.1039/c8ra90071j
Sustainable inverse-vulcanised sulfur polymers
Parker, D. J., Chong, S. T., & Hasell, T. (2018). Sustainable inverse-vulcanised sulfur polymers. RSC ADVANCES, 8(49), 27892-27899. doi:10.1039/c8ra04446e
Sulfur polymers for heavy metal capture
Parker, D., Petcher, S., Lee, J. -S., Cooper, A., & Hasell, T. (2018). Sulfur polymers for heavy metal capture. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY Vol. 256. Retrieved from https://www.webofscience.com/
2017
Design and Synthesis of 3D Porous Diamondoid Frameworks by Cocrystallization
Tothadi, S., Little, M. A., Hasell, T., Briggs, M. E., Chong, S. Y., & Cooper, A. I. (2017). Design and Synthesis of 3D Porous Diamondoid Frameworks by Cocrystallization. In ACTA CRYSTALLOGRAPHICA A-FOUNDATION AND ADVANCES Vol. 73 (pp. C470). doi:10.1107/S2053273317091033
Inside information on xenon adsorption in porous organic cages by NMR
Komulainen, S., Roukala, J., Zhivonitko, V. V., Javed, M. A., Chen, L., Holden, D., . . . Telkki, V. -V. (2017). Inside information on xenon adsorption in porous organic cages by NMR. Chemical Science, 8(8), 5721-5727. doi:10.1039/c7sc01990d
Oriented Two-Dimensional Porous Organic Cage Crystals
Jiang, S., Song, Q., Massey, A., Chong, S. Y., Chen, L., Sun, S., . . . Cooper, A. I. (2017). Oriented Two-Dimensional Porous Organic Cage Crystals. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 56(32), 9391-9395. doi:10.1002/anie.201704579
Oriented Two-Dimensional Porous Organic Cage Crystals
Jiang, S., Song, Q., Massey, A., Chong, S. Y., Chen, L., Sun, S., . . . Cooper, A. I. (2017). Oriented Two-Dimensional Porous Organic Cage Crystals. Angewandte Chemie International Edition, 56(32), 9391-9395. doi:10.1002/ange.201704579
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
Chirality as a tool for function in porous organic cages
Hasell, T., Little, M. A., Chong, S. Y., Schmidtmann, M., Briggs, M. E., Santolini, V., . . . Cooper, A. I. (2017). Chirality as a tool for function in porous organic cages. NANOSCALE, 9(20), 6783-6790. doi:10.1039/c7nr01301a
Understanding gas capacity, guest selectivity and diffusion in porous liquids
greenaway., holden., eden., stephenson., Yong, Y. W., bennison., . . . cooper. (2017). Understanding gas capacity, guest selectivity and diffusion in porous liquids. Chemical Science, 2017(4), 2640-2651. doi:10.1039/c6sc05196k
Functional materials discovery using energy–structure–function maps
Pulido, A., Chen, L., Kaczorowski, T., Holden, D., Little, M. A., Chong, S. Y., . . . Day, G. M. (2017). Functional materials discovery using energy–structure–function maps. Nature, 543(7647), 657-664. doi:10.1038/nature21419
High surface area sulfur-doped microporous carbons from inverse vulcanised polymers
Lee, J. -S. M., Parker, D. J., Cooper, A. I., & Hasell, T. (2017). High surface area sulfur-doped microporous carbons from inverse vulcanised polymers. JOURNAL OF MATERIALS CHEMISTRY A, 5(35), 18603-18609. doi:10.1039/c7ta07130b
Low cost and renewable sulfur-polymers by inverse vulcanisation, and their potential for mercury capture
Parker, D. J., Jones, H. A., Petcher, S., Cervini, L., Griffin, J. M., Akhtar, R., & Hasell, T. (2017). Low cost and renewable sulfur-polymers by inverse vulcanisation, and their potential for mercury capture. JOURNAL OF MATERIALS CHEMISTRY A, 5(23), 11682-11692. doi:10.1039/c6ta09862b
Modular assembly of porous organic cage crystals: isoreticular quasiracemates and ternary co-crystal
Tothadi, S., Little, M. A., Hasell, T., Briggs, M. E., Chong, S. Y., Liu, M., & Cooper, A. I. (2017). Modular assembly of porous organic cage crystals: isoreticular quasiracemates and ternary co-crystal. CRYSTENGCOMM, 19(33), 4933-4941. doi:10.1039/c7ce00783c
Reticular synthesis of porous molecular 1D nanotubes and 3D networks
Slater, A. G., Little, M. A., Pulido, A., Chong, S. Y., Holden, D., Chen, L., . . . Cooper, A. I. (2017). Reticular synthesis of porous molecular 1D nanotubes and 3D networks. Nature Chemistry, 9, 17-25. doi:10.1038/nchem.2663
Self-assembly of oriented 2D porous organic cage crystals
Jiang, S., Song, Q., Hasell, T., & Cooper, A. (2017). Self-assembly of oriented 2D porous organic cage crystals. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY Vol. 254. Retrieved from https://www.webofscience.com/
2016
Hyperporous Carbons from Hypercrosslinked Polymers.
Lee, J. -S. M., Briggs, M. E., Hasell, T., & Cooper, A. I. (2016). Hyperporous Carbons from Hypercrosslinked Polymers.. Advanced Materials, 28(44), 9804-9810. doi:10.1002/adma.201603051
Periphery-Functionalized Porous Organic Cages
Reiss, P. S., Little, M. A., Santolini, V., Chong, S. Y., Hasell, T., Jelfs, K. E., . . . Cooper, A. I. (2016). Periphery-Functionalized Porous Organic Cages. CHEMISTRY-A EUROPEAN JOURNAL, 22(46), 16547-16553. doi:10.1002/chem.201603593
Porous carbons from inverse vulcanised polymers
Bear, J. C., McGettrick, J. D., Parkin, I. P., Dunnill, C. W., & Hasell, T. (2016). Porous carbons from inverse vulcanised polymers. MICROPOROUS AND MESOPOROUS MATERIALS, 232, 189-195. doi:10.1016/j.micromeso.2016.06.021
Three-dimensional Protonic Conductivity in Porous Organic Cage Solids
Liu, M., Chen, L., Lewis, S., Chong, S. Y., Little, M. A., Hasell, T., . . . Cooper, A. I. (2016). Three-dimensional Protonic Conductivity in Porous Organic Cage Solids. Nature Communications, 7. doi:10.1038/ncomms12750
Understanding Static, Dynamic and Cooperative Porosity in Molecular Materials
Holden, D., Chong, S. Y., Chen, L., Jelfs, K. E., Hasell, T., & Cooper, A. I. (2016). Understanding Static, Dynamic and Cooperative Porosity in Molecular Materials. Chemical Science, 7(08), 4875-4879. doi:10.1039/C6SC00713A
Porous organic cages: soluble, modular and molecular pores
Hasell, T., & Cooper, A. I. (2016). Porous organic cages: soluble, modular and molecular pores. NATURE REVIEWS MATERIALS, 1(9). doi:10.1038/natrevmats.2016.53
Separations with organic molecular solids
cooper., hasell., holden., Briggs, M. E., & chen. (2016, June 26). GB2015/051874, Separations with organic molecular solids.
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
Functional Porous Composites by Blending with Solution-Processable Molecular Pores
Briggs, M. E., Jiang., hasell., & cooper. (n.d.). Functional Porous Composites by Blending with Solution-Processable Molecular Pores. Chemical Communications. doi:10.1039/C6CC01034B
Porous inverse vulcanised polymers for mercury capture
Hasell, T., Parker, D. J., Jones, H. A., McAllister, T., & Howdle, S. M. (2016). Porous inverse vulcanised polymers for mercury capture. CHEMICAL COMMUNICATIONS, 52(31), 5383-5386. doi:10.1039/c6cc00938g
Porous Organic Cages for Sulfur Hexafluoride Separation
Hasell, T., Miklitz, M., Stephenson, A., Little, M. A., Chong, S. Y., Clowes, R., . . . Cooper, A. I. (2016). Porous Organic Cages for Sulfur Hexafluoride Separation. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 138(5), 1653-1659. doi:10.1021/jacs.5b11797
2015
Dynamic flow synthesis of porous organic cages
Briggs, M. E., Slater, A. G., Lunt, N., Jiang, S., Little, M. A., Greenaway, R. L., . . . Cooper, A. I. (2015). Dynamic flow synthesis of porous organic cages. CHEMICAL COMMUNICATIONS, 51(98), 17390-17393. doi:10.1039/c5cc07447a
Tunable Porosity through Cooperative Diffusion in a Multicomponent Porous Molecular Crystal
Manurung, R., Holden, D., Miklitz, M., Chen, L., Hasell, T., Chong, S. Y., . . . Jelfs, K. E. (2015). Tunable Porosity through Cooperative Diffusion in a Multicomponent Porous Molecular Crystal. JOURNAL OF PHYSICAL CHEMISTRY C, 119(39), 22577-22586. doi:10.1021/acs.jpcc.5b07200
Porous Organic Cages for Gas Chromatography Separations
Kewley, A., Stephenson, A., Chen, L., Briggs, M. E., Hasell, T., & Cooper, A. I. (2015). Porous Organic Cages for Gas Chromatography Separations. Chemistry of Materials, 27(9), 3207-3210. doi:10.1021/acs.chemmater.5b01112
Using intermolecular interactions to crosslink PIM- 1 and modify its gas sorption properties
McDonald, T., Akhtar, R., Hon Lau, C., Ratvijitvech, T., Cheng, G., Clowes, R., . . . Cooper, A. (2015). Using intermolecular interactions to crosslink PIM-1 and modify its gas sorption properties. Journal of Materials Chemistry A, 3(9), 4855-4864. doi:10.1039/c4ta06070a
Aligned macroporous monoliths with intrinsic microporosity <i>via</i> a frozen-solvent-templating approachd
Ahmed, A., Hasell, T., Clowes, R., Myers, P., Cooper, A. I., & Zhang, H. (2015). Aligned macroporous monoliths with intrinsic microporosity <i>via</i> a frozen-solvent-templating approachd. CHEMICAL COMMUNICATIONS, 51(9), 1717-1720. doi:10.1039/c4cc08919g
Trapping virtual pores by crystal retro-engineering
Little, M., Briggs, M., Jones, J., Schmidtmann, M., Hasell, T., Chong, S., . . . Cooper, A. (2015). Trapping virtual pores by crystal retro-engineering. Nature Chemistry, 7(02), 153-159. doi:10.1038/nchem.2156
2014
Network formation mechanisms in conjugated microporous polymers
Laybourn, A., Dawson, R., Clowes, R., Hasell, T., Cooper, A. I., Khimyak, Y. Z., & Adams, D. J. (2014). Network formation mechanisms in conjugated microporous polymers. POLYMER CHEMISTRY, 5(21), 6325-6333. doi:10.1039/c4py00647j
Separation of rare gases and chiral molecules by selective binding in porous organic cages
Chen, L., Reiss, P., Chong, S., Holden, D., Jelfs, K., Hasell, T., . . . Cooper, A. (2014). Separation of rare gases and chiral molecules by selective binding in porous organic cages. Nature Materials, 13(10), 954-960. doi:10.1038/nmat4035
Conjugated Polymers of Intrinsic Microporosity (C-PIMs)
Cheng, G., Bonillo, B., Sprick, R. S., Adams, D. J., Hasell, T., & Cooper, A. I. (2014). Conjugated Polymers of Intrinsic Microporosity (C-PIMs). Advanced Functional Materials, 24(33), 5219-5224. doi:10.1002/adfm.201401001
Guest control of structure in porous organic cages
Little, M. A., Chong, S. Y., Schmidtmann, M., Hasell, T., & Cooper, A. I. (2014). Guest control of structure in porous organic cages. CHEMICAL COMMUNICATIONS, 50(67), 9465-9468. doi:10.1039/c4cc04158e
Exploiting weak supramolecular interactions to assemble organic cage materials
Chong, S., Hasell, T., Culshaw, J., Little, M., Schmidtmann, M., Holden, D., . . . Cooper, A. (2014). Exploiting weak supramolecular interactions to assemble organic cage materials. In ACTA CRYSTALLOGRAPHICA A-FOUNDATION AND ADVANCES Vol. 70 (pp. C632). doi:10.1107/S205327331409367X
Towards computer-guided tuning of the crystal packing of porous organic cages
Pulido, A., Liu, M., Reiss, P., Slater, A., Chong, S., Little, M., . . . Day, G. (2014). Towards computer-guided tuning of the crystal packing of porous organic cages. In ACTA CRYSTALLOGRAPHICA A-FOUNDATION AND ADVANCES Vol. 70 (pp. C667). doi:10.1107/S2053273314093322
Swellable, Water- and Acid-Tolerant Polymer Sponges for Chemoselective Carbon Dioxide Capture
Woodward, R. T., Stevens, L. A., Dawson, R., Vijayaraghavan, M., Hasell, T., Silverwood, I. P., . . . Cooper, A. I. (2014). Swellable, Water- and Acid-Tolerant Polymer Sponges for Chemoselective Carbon Dioxide Capture. Journal of the American Chemical Society, 136(25), 9028-9035. doi:10.1021/ja5031968
Acid- and Base-Stable Porous Organic Cages: Shape Persistence and pH Stability via Post-synthetic "Tying" of a Flexible Amine Cage
Liu, M., Little, M. A., Jelfs, K. E., Jones, J. T. A., Schmidtmann, M., Chong, S. Y., . . . Cooper, A. I. (2014). Acid- and Base-Stable Porous Organic Cages: Shape Persistence and pH Stability via Post-synthetic "Tying" of a Flexible Amine Cage. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 136(21), 7583-7586. doi:10.1021/ja503223j
Controlling the Crystallization of Porous Organic Cages: Molecular Analogs of Isoreticular Frameworks Using Shape-Specific Directing Solvents
Hasell, T., Culshaw, J. L., Chong, S., Schmidtmann, M., Little, M., Jelfs, K. E., . . . Cooper, A. (2014). Controlling the Crystallization of Porous Organic Cages: Molecular Analogs of Isoreticular Frameworks Using Shape-Specific Directing Solvents. Journal of the American Chemical Society, 136(4), 1438-1448. doi:10.1021/ja409594s
Design and Synthesis of 3D Porous Diamondoid Frameworks by Cocrystallization
Tothadi, S., Little, M. A., Hasell, T., Briggs, M. E., Chong, S. Y., & Cooper, A. I. (2014). Design and Synthesis of 3D Porous Diamondoid Frameworks by Cocrystallization. In ACTA CRYSTALLOGRAPHICA A-FOUNDATION AND ADVANCES Vol. 70 (pp. C470). Retrieved from http://gateway.webofknowledge.com/
Porous organic cages-soluble molecular pores
Cooper, A. I., & Hasell, T. (2014). Porous organic cages-soluble molecular pores. Kobunshi, 63(4), 223-224.
2013
METAL–POLYMER NANOCOMPOSITES BY SUPERCRITICAL FLUID PROCESSING
Hasell, T. (2013). METAL–POLYMER NANOCOMPOSITES BY SUPERCRITICAL FLUID PROCESSING. In Unknown Book (pp. 1-43). Wiley. doi:10.1002/9781118742655.ch1
Molecular Dynamics Simulations of Gas Selectivity in Amorphous Porous Molecular Solids
Jiang, S., Jelfs, K. E., Holden, D., Hasell, T., Chong, S. Y., Haranczyk, M., . . . Cooper, A. I. (2013). Molecular Dynamics Simulations of Gas Selectivity in Amorphous Porous Molecular Solids. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 135(47), 17818-17830. doi:10.1021/ja407374k
High-pressure carbon dioxide uptake for porous organic cages: comparison of spectroscopic and manometric measurement techniques
Hasell, T., Armstrong, J. A., Jelfs, K. E., Tay, F. H., Thomas, K. M., Kazarian, S. G., & Cooper, A. I. (2013). High-pressure carbon dioxide uptake for porous organic cages: comparison of spectroscopic and manometric measurement techniques. CHEMICAL COMMUNICATIONS, 49(82), 9410-9412. doi:10.1039/c3cc45924a
Shedding Light on Structure-Property Relationships for Conjugated Microporous Polymers: The Importance of Rings and Strain
Zwijnenburg, M. A., Cheng, G., McDonald, T. O., Jelfs, K. E., Jiang, J. -X., Ren, S., . . . Adams, D. J. (2013). Shedding Light on Structure-Property Relationships for Conjugated Microporous Polymers: The Importance of Rings and Strain. MACROMOLECULES, 46(19), 7696-7704. doi:10.1021/ma401311s
Assembling pore networks in organic cage structures using molecular recognition
Chong, S. Y., Hasell, T., Briggs, M. E., Jelfs, K. E., Little, M. A., Schmidtmann, M., & Cooper, A. I. (2013). Assembling pore networks in organic cage structures using molecular recognition. In ACTA CRYSTALLOGRAPHICA A-FOUNDATION AND ADVANCES Vol. 69 (pp. S236). doi:10.1107/S0108767313097973
Porous Organic Cage Tectonics
Little, M. A., Briggs, M. E., Chong, S., Hasell, T., Jelfs, K. E., Jones, J. T. A., . . . Cooper, A. I. (2013). Porous Organic Cage Tectonics. In ACTA CRYSTALLOGRAPHICA A-FOUNDATION AND ADVANCES Vol. 69 (pp. S523-S524). doi:10.1107/S0108767313095470
Dodecaamide Cages: Organic 12-Arm Building Blocks for Supramolecular Chemistry
Culshaw, J. L., Cheng, G., Schmidtmann, M., Hasell, T., Liu, M., Adams, D. J., & Cooper, A. I. (2013). Dodecaamide Cages: Organic 12-Arm Building Blocks for Supramolecular Chemistry. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 135(27), 10007-10010. doi:10.1021/ja403987j
Nanoporous Organic Polymer/Cage Composite Membranes
Bushell, A. F., Budd, P. M., Attfield, M. P., Jones, J. T. A., Hasell, T., Cooper, A. I., . . . Jansen, J. C. (2013). Nanoporous Organic Polymer/Cage Composite Membranes. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 52(4), 1253-1256. doi:10.1002/anie.201206339
How to realize oleophobicity without relying on perfluorinated chemicals
Hozumi, A., Urata, C., Cheng, D. F., & Masheder, B. (2013). How to realize oleophobicity without relying on perfluorinated chemicals. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY Vol. 245. Retrieved from https://www.webofscience.com/
Soluble Polymers
Adams, D., Cooper, A., Cheng, G., & Hasell, T. (2013). Soluble Polymers.
2012
Porous organic cage crystals: characterising the porous crystal surface
Bojdys, M. J., Hasell, T., Severin, N., Jelfs, K. E., Rabe, J. P., & Cooper, A. I. (2012). Porous organic cage crystals: characterising the porous crystal surface. CHEMICAL COMMUNICATIONS, 48(98), 11948-11950. doi:10.1039/c2cc36602a
Soluble conjugated microporous polymers
Cheng, G., Hasell, T., Adams, D. J., & Cooper, A. I. (2013). Soluble conjugated microporous polymers. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 245. Retrieved from https://www.webofscience.com/
Solution-Processable Molecular Cage Micropores for Hierarchically Porous Materials
Hasell, T., Zhang, H., & Cooper, A. I. (2012). Solution-Processable Molecular Cage Micropores for Hierarchically Porous Materials. ADVANCED MATERIALS, 24(42), 5732-5737. doi:10.1002/adma.201202000
Porous Organic Alloys
Hasell, T., Chong, S. Y., Schmidtmann, M., Adams, D. J., & Cooper, A. I. (2012). Porous Organic Alloys. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 51(29), 7154-7157. doi:10.1002/anie.201202849
Porous Organic Alloys
Hasell, T., Chong, S. Y., Schmidtmann, M., Adams, D. J., & Cooper, A. I. (2012). Porous Organic Alloys. Angewandte Chemie International Edition, 51(29), 7154-7157. doi:10.1002/anie.201202849
Alkylated organic cages: from porous crystals to neat liquids
Giri, N., Davidson, C. E., Melaugh, G., Del Popolo, M. G., Jones, J. T. A., Hasell, T., . . . James, S. L. (2012). Alkylated organic cages: from porous crystals to neat liquids. CHEMICAL SCIENCE, 3(6), 2153-2157. doi:10.1039/c2sc01007k
Reversible water uptake by a stable imine-based porous organic cage
Hasell, T., Schmidtmann, M., Stone, C. A., Smith, M. W., & Cooper, A. I. (2012). Reversible water uptake by a stable imine-based porous organic cage. CHEMICAL COMMUNICATIONS, 48(39), 4689-4691. doi:10.1039/c2cc31212c
Porous Organic Cage Nanocrystals by Solution Mixing
Hasell, T., Chong, S. Y., Jelfs, K. E., Adams, D. J., & Cooper, A. I. (2012). Porous Organic Cage Nanocrystals by Solution Mixing. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 134(1), 588-598. doi:10.1021/ja209156v
Soluble Conjugated Microporous Polymers
Cheng, G., Hasell, T., Trewin, A., Adams, D. J., & Cooper, A. I. (2012). Soluble Conjugated Microporous Polymers. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 51(51), 12727-12731. doi:10.1002/anie.201205521
Soluble Polymers
Adams, D., Cooper, A., Cheng, G., & Hasell, T. (2012). Soluble Polymers.
2011
Molecular Doping of Porous Organic Cages
Hasell, T., Schmidtmann, M., & Cooper, A. I. (2011). Molecular Doping of Porous Organic Cages. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 133(38), 14920-14923. doi:10.1021/ja205969q
Modular assembly of porous organic materials
Chong, S. Y., Jones, J. T. A., Hasell, T., Schmidtmann, M., Bacsa, J., & Cooper, A. I. (2011). Modular assembly of porous organic materials. In ACTA CRYSTALLOGRAPHICA A-FOUNDATION AND ADVANCES Vol. 67 (pp. C392). doi:10.1107/S0108767311090155
Modular and predictable assembly of porous organic molecular crystals
Jones, J. T. A., Hasell, T., Wu, X., Bacsa, J., Jelfs, K. E., Schmidtmann, M., . . . Cooper, A. I. (2011). Modular and predictable assembly of porous organic molecular crystals. NATURE, 474(7351), 367-371. doi:10.1038/nature10125
Porous organic molecular solids by dynamic covalent scrambling
Jiang, S., Jones, J. T. A., Hasell, T., Blythe, C. E., Adams, D. J., Trewin, A., & Cooper, A. I. (2011). Porous organic molecular solids by dynamic covalent scrambling. NATURE COMMUNICATIONS, 2. doi:10.1038/ncomms1207
Metal-Organic Conjugated Microporous Polymers
Jiang, J. -X., Wang, C., Laybourn, A., Hasell, T., Clowes, R., Khimyak, Y. Z., . . . Cooper, A. I. (2011). Metal-Organic Conjugated Microporous Polymers. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 50(5), 1072-1075. doi:10.1002/anie.201005864
Metal-organic conjugated microporous polymers (MO-CMPs)
Jiang, J. -X., Wang, C., Adams, D. J., Higgins, S. J., Xiao, J., & Cooper, A. I. (2011). Metal-organic conjugated microporous polymers (MO-CMPs). ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 242. Retrieved from https://www.webofscience.com/
On-Off Porosity Switching in a Molecular Organic Solid
Jones, J. T. A., Holden, D., Mitra, T., Hasell, T., Adams, D. J., Jelfs, K. E., . . . Cooper, A. I. (2011). On-Off Porosity Switching in a Molecular Organic Solid. ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 50(3), 749-753. doi:10.1002/anie.201006030
Titelbild: On–Off Porosity Switching in a Molecular Organic Solid (Angew. Chem. 3/2011)
Jones, J. T. A., Holden, D., Mitra, T., Hasell, T., Adams, D. J., Jelfs, K. E., . . . Cooper, A. I. (2011). Titelbild: On–Off Porosity Switching in a Molecular Organic Solid (Angew. Chem. 3/2011). Angewandte Chemie, 123(3), 579. doi:10.1002/ange.201007476
Modular and predictable assembly of porous organic molecular crystals
Cooper, A. I., Day, G. M., Jones, J. T. A., Wu, X., Hasell, T., Bacsa, J., . . . Steiner, A. (2011). Modular and predictable assembly of porous organic molecular crystals. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 242. Retrieved from https://www.webofscience.com/
State-specific reactions of gas phase Ni<SUP>+</SUP> with CH<sub>3</sub>X and CF<sub>3</sub>X (X=Br,I): Evidence of selective halogen abstraction
Fancher, K. G., Cooper, A. J., Chen, L. -C., & Taylor, W. S. (2011). State-specific reactions of gas phase Ni<SUP>+</SUP> with CH<sub>3</sub>X and CF<sub>3</sub>X (X=Br,I): Evidence of selective halogen abstraction. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY Vol. 241. Retrieved from https://www.webofscience.com/
2010
A Metal-Organic Framework with a Covalently Prefabricated Porous Organic Linker
Swamy, S. I., Bacsa, J., Jones, J. T. A., Stylianou, K. C., Steiner, A., Ritchie, L. K., . . . Cooper, A. I. (2010). A Metal-Organic Framework with a Covalently Prefabricated Porous Organic Linker. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 132(37), 12773-12775. doi:10.1021/ja104083y
Triply interlocked covalent organic cages
Hasell, T., Wu, X., Jones, J. T. A., Bacsa, J., Steiner, A., Mitra, T., . . . Cooper, A. I. (2010). Triply interlocked covalent organic cages. NATURE CHEMISTRY, 2(9), 750-755. doi:10.1038/nchem.739
Synthesis of COF-5 using microwave irradiation and conventional solvothermal routes
Ritchie, L. K., Trewin, A., Reguera-Galan, A., Hasell, T., & Cooper, A. I. (2010). Synthesis of COF-5 using microwave irradiation and conventional solvothermal routes. MICROPOROUS AND MESOPOROUS MATERIALS, 132(1-2), 132-136. doi:10.1016/j.micromeso.2010.02.010
Palladium Nanoparticle Incorporation in Conjugated Microporous Polymers by Supercritical Fluid Processing
Hasell, T., Wood, C. D., Clowes, R., Jones, J. T. A., Khimyak, Y. Z., Adams, D. J., & Cooper, A. I. (2010). Palladium Nanoparticle Incorporation in Conjugated Microporous Polymers by Supercritical Fluid Processing. Chemistry of Materials, 22(2), 557-564. doi:10.1021/cm9030446
Palladium Nanoparticle Incorporation in Conjugated Microporous Polymers by Supercritical Fluid Processing
Hasell, T., Wood, C. D., Clowes, R., Jones, J. T. A., Khimyak, Y. Z., Adams, D. J., & Cooper, A. I. (2010). Palladium Nanoparticle Incorporation in Conjugated Microporous Polymers by Supercritical Fluid Processing. CHEMISTRY OF MATERIALS, 22(2), 557-564. doi:10.1021/cm9030446
Hexadecane hydrotreating as a surrogate for Fischer-Tropsch upgrading to aviation fuel using a Co/MoO<sub>3</sub>/silica-alumina catalyst
Robota, H. J., Jones, J., Stewart, A., & Luo, M. (2010). Hexadecane hydrotreating as a surrogate for Fischer-Tropsch upgrading to aviation fuel using a Co/MoO<sub>3</sub>/silica-alumina catalyst. In ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY Vol. 240. Retrieved from https://www.webofscience.com/
2009
Deposition in supercritical fluids: from silver to semiconductors
Yang, J., Hasell, T., Smith, D. C., & Howdle, S. M. (2009). Deposition in supercritical fluids: from silver to semiconductors. JOURNAL OF MATERIALS CHEMISTRY, 19(45), 8560-8570. doi:10.1039/b911224c
Silver nanoparticle impregnated polycarbonate substrates for plasmonic applications
Lagonigro, L., Hasell, T., Rohrmoser, S., Howdle, S. M., Sazio, P. J. A., Lagoudakis, P. G., & Peacock, A. C. (2009). Silver nanoparticle impregnated polycarbonate substrates for plasmonic applications. In 2009 IEEE/LEOS Winter Topicals Meeting Series (pp. 48-49). IEEE. doi:10.1109/leoswt.2009.4771648
Porous organic cages
Tozawa, T., Jones, J. T. A., Swamy, S. I., Jiang, S., Adams, D. J., Shakespeare, S., . . . Cooper, A. I. (2009). Porous organic cages. NATURE MATERIALS, 8(12), 973-978. doi:10.1038/NMAT2545
Porous organic cages
Tozawa, T., Swamy, S., Jiang, S., Adams, D. J., Shakespeare, S., Jones, J. T. A., . . . Cooper, A. I. (2009). Porous organic cages. ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY, 238. Retrieved from https://www.webofscience.com/
Silver nanoparticle impregnated polycarbonate substrates for plasmonic applications
Lagonigro, L., Hasell, T., Rohrmoser, S., Howdle, S. M., Sazio, P. J. A., Lagoudakis, P. G., & Peacock, A. C. (2009). Silver nanoparticle impregnated polycarbonate substrates for plasmonic applications. In 2009 IEEE/LEOS WINTER TOPICALS MEETING SERIES (WTM 2009) (pp. 46-+). Retrieved from https://www.webofscience.com/
2008
Time and spectrally resolved enhanced fluorescence using silver nanoparticle impregnated polycarbonate substrates
Lagonigro, L., Peacock, A. C., Rohrmoser, S., Hasell, T., Howdle, S. M., Sazio, P. J. A., & Lagoudakis, P. G. (2008). Time and spectrally resolved enhanced fluorescence using silver nanoparticle impregnated polycarbonate substrates. APPLIED PHYSICS LETTERS, 93(26). doi:10.1063/1.3059567
A novel synthetic route to metal-polymer nanocomposites by <i>in situ</i> suspension and bulk polymerizations
Yang, J., Hasell, T., Wang, W., & Howdle, S. M. (2008). A novel synthetic route to metal-polymer nanocomposites by <i>in situ</i> suspension and bulk polymerizations. EUROPEAN POLYMER JOURNAL, 44(5), 1331-1336. doi:10.1016/j.eurpolymj.2008.01.044
Silver nanoparticle impregnated polycarbonate substrates for surface enhanced Raman spectroscopy
Hasell, T., Lagonigro, L., Peacock, A. C., Yoda, S., Brown, P. D., Sazio, P. J. A., & Howdle, S. M. (2008). Silver nanoparticle impregnated polycarbonate substrates for surface enhanced Raman spectroscopy. ADVANCED FUNCTIONAL MATERIALS, 18(8), 1265-1271. doi:10.1002/adfm.200701429
Preparation of hybrid polymer nanocomposite microparticles by a nanoparticle stabilised dispersion polymerisation
Yang, J., Hasell, T., Wang, W., Li, J., Brown, P. D., Poliakoff, M., . . . Howdle, S. M. (2008). Preparation of hybrid polymer nanocomposite microparticles by a nanoparticle stabilised dispersion polymerisation. JOURNAL OF MATERIALS CHEMISTRY, 18(9), 998-1001. doi:10.1039/b715927g
2007
A facile synthetic route to aqueous dispersions of silver nanoparticles
Hasell, T., Yang, J., Wang, W., Brown, P. D., & Howdle, S. M. (2007). A facile synthetic route to aqueous dispersions of silver nanoparticles. MATERIALS LETTERS, 61(27), 4906-4910. doi:10.1016/j.matlet.2007.03.072
Novel one pot synthesis of silver nanoparticle-polymer composites by supercritical CO<sub>2</sub> polymerisation in the presence of a RAFT agent
Hasell, T., Thurecht, K. J., Jones, R. D. W., Brown, P. D., & Howdle, S. M. (2007). Novel one pot synthesis of silver nanoparticle-polymer composites by supercritical CO<sub>2</sub> polymerisation in the presence of a RAFT agent. CHEMICAL COMMUNICATIONS, (38), 3933-3935. doi:10.1039/b710503g
Preparation of polymer-nanoparticle composite beads by a nanoparticle-stabilised suspension polymerisation
Hasell, T., Yang, J., Wang, W., Li, J., Brown, P. D., Poliakoff, M., . . . Howdle, S. M. (2007). Preparation of polymer-nanoparticle composite beads by a nanoparticle-stabilised suspension polymerisation. JOURNAL OF MATERIALS CHEMISTRY, 17(41), 4382-4386. doi:10.1039/b705917e
2006
Microstructural characterisation of silver/polymer nanocomposites prepared using supercritical carbon dioxide
Hasell, T., Yoda, S., Howdle, S. M., & Brown, P. D. (2006). Microstructural characterisation of silver/polymer nanocomposites prepared using supercritical carbon dioxide. EMAG-NANO 2005: IMAGING, ANALYSIS AND FABRICATION ON THE NANOSCALE, 26, 276-+. doi:10.1088/1742-6596/26/1/066