Publications

Journal Articles

  1. & Effect of Backbone Rigidity on the Glass Transition of Polymers of Intrinsic Microporosity Probed by Fast Scanning Calorimetry. ACS Macro Letters 8(8), 1022-1028.
  2. & Photoelectrochemistry of immobilised Pt@g-C3N4 mediated by hydrogen and enhanced by a polymer of intrinsic microporosity PIM-1. Electrochemistry Communications 103, 1-6.
  3. & Gas sorption in polymers of intrinsic microporosity: The difference between solubility coefficients determined via time-lag and direct sorption experiments. Journal of Membrane Science 570-571, 522-536.
  4. & Redefining the Robeson upper bounds for CO2/CH4 and CO2/N2 separations using a series of ultrapermeable benzotriptycene-based polymers of intrinsic microporosity. Energy & Environmental Science 12(9), 2733-2740.
  5. & Thin film composite membranes based on a polymer of intrinsic microporosity derived from Tröger's base: A combined experimental and computational investigation of the role of residual casting solvent. Journal of Membrane Science 569, 17-31.
  6. & The origin of size-selective gas transport through polymers of intrinsic microporosity. Journal of Materials Chemistry A 7(35), 20121-20126.
  7. & Biphasic Voltammetry and Spectroelectrochemistry in Polymer of Intrinsic Microporosity—4-(3-Phenylpropyl)-Pyridine Organogel/Aqueous Electrolyte Systems: Reactivity of MnPc Versus MnTPP. Electrocatalysis 10(4), 295-304.
  8. & Continuous flow knitting of a triptycene hypercrosslinked polymer. Chemical Communications 55(59), 8571-8574.
  9. & Microporous Organic Polymers: Synthesis, Characterization, and Applications. Polymers 11(5), 844
  10. & Highly Permeable Matrimid®/PIM-EA(H2)-TB Blend Membrane for Gas Separation. Polymers 11(1), 46
  11. & Temperature and Pressure Dependence of Gas Permeation in a Microporous Tröger’s Base Polymer. Membranes 8(4), 132
  12. & Hydrogen Separation at High Temperature with Dense and Asymmetric Membranes Based on PIM-EA(H2)-TB/PBI Blends. Industrial & Engineering Chemistry Research 57(49), 16909-16916.
  13. & Water-Based Synthesis and Enhanced CO2 Capture Performance of Perfluorinated Cerium-Based Metal–Organic Frameworks with UiO-66 and MIL-140 Topology. ACS Sustainable Chemistry & Engineering
  14. & Temperature Dependence of Gas Permeation and Diffusion in Triptycene-Based Ultrapermeable Polymers of Intrinsic Microporosity. ACS Applied Materials & Interfaces 10(42), 36475-36482.
  15. & A Novel Time Lag Method for the Analysis of Mixed Gas Diffusion in Polymeric Membranes by On-Line Mass Spectrometry: Pressure Dependence of Transport Parameters. Membranes 8(3), 73
  16. & A novel time lag method for the analysis of mixed gas diffusion in polymeric membranes by on-line mass spectrometry: Method development and validation. Journal of Membrane Science 561, 39-58.
  17. & Platinum Nanoparticle Inclusion into a Carbonized Polymer of Intrinsic Microporosity: Electrochemical Characteristics of a Catalyst for Electroless Hydrogen Peroxide Production. Nanomaterials 8(7), 542
  18. & The synthesis, chain-packing simulation and long-term gas permeability of highly selective spirobifluorene-based polymers of intrinsic microporosity. Journal of Materials Chemistry A 6(22), 10507-10514.
  19. & A highly rigid and gas selective methanopentacene-based polymer of intrinsic microporosity derived from Tröger's base polymerization. Journal of Materials Chemistry A 6(14), 5661-5667.
  20. & Towards High Performance Metal-Organic Framework-Microporous Polymer Mixed Matrix Membranes: Addressing Compatibility and Limiting Aging by Polymer Doping. Chemistry - A European Journal
  21. & Linking the Cu(II/I) potential to the onset of dynamic phenomena at corroding copper microelectrodes immersed in aqueous 0.5 M NaCl. Electrochimica Acta 260, 348-357.
  22. & One-step preparation of microporous Pd@cPIM composite catalyst film for triphasic electrocatalysis. Electrochemistry Communications 86, 17-20.
  23. & Carbonization of polymers of intrinsic microporosity to microporous heterocarbon: Capacitive pH measurements. Applied Materials Today 9, 136-144.
  24. & Ultrathin Composite Polymeric Membranes for CO2/N2 Separation with Minimum Thickness and High CO2 Permeance. ChemSusChem 10(20), 4014-4017.
  25. & Polymer ultrapermeability from the inefficient packing of 2D chains. Nature Materials 16(9), 932-937.
  26. & Redox reactivity at silver microparticle—glassy carbon contacts under a coating of polymer of intrinsic microporosity (PIM). Journal of Solid State Electrochemistry 21(7), 2141-2146.
  27. & High-Utilisation Nanoplatinum Catalyst (Pt@cPIM) Obtained via Vacuum Carbonisation in a Molecularly Rigid Polymer of Intrinsic Microporosity. Electrocatalysis 8(2), 132-143.
  28. & Potassium cation induced ionic diode blocking for a polymer of intrinsic microporosity | nafion “heterojunction” on a microhole substrate. Electrochimica Acta 258, 807-813.
  29. et. al. A rapidly-reversible absorptive and emissive vapochromic Pt(II) pincer-based chemical sensor. Nature Communications 8(1)
  30. & Polymers of Intrinsic Microporosity derived from a carbocyclic analogue of Tröger's base. Polymer 126, 324-329.
  31. & Aging of polymers of intrinsic microporosity tracked by methanol vapour permeation. Journal of Membrane Science 520, 895-906.
  32. & Polymers of intrinsic microporosity in electrochemistry: Anion uptake and transport effects in thin film electrodes and in free-standing ionic diode membranes. Journal of Electroanalytical Chemistry 779, 241-249.
  33. & Toward an Understanding of the Microstructure and Interfacial Properties of PIMs/ZIF-8 Mixed Matrix Membranes. ACS Applied Materials & Interfaces 8(40), 27311-27321.
  34. & Highly Conductive Anion-Exchange Membranes from Microporous Tröger's Base Polymers. Angewandte Chemie International Edition 55(38), 11499-11502.
  35. & Molecularly Rigid Microporous Polyamine Captures and Stabilizes Conducting Platinum Nanoparticle Networks. ACS Applied Materials & Interfaces 8(34), 22425-22430.
  36. & pH-induced reversal of ionic diode polarity in 300nm thin membranes based on a polymer of intrinsic microporosity. Electrochemistry Communications 69, 41-45.
  37. & Effect of humidity and flue gas impurities on CO2 permeation of a polymer of intrinsic microporosity for post-combustion capture. International Journal of Greenhouse Gas Control 50, 93-99.
  38. & Enhancing the Gas Permeability of Tröger’s Base Derived Polyimides of Intrinsic Microporosity. Macromolecules 49(11), 4147-4154.
  39. & The Synthesis of Organic Molecules of Intrinsic Microporosity Designed to Frustrate Efficient Molecular Packing. Chemistry - A European Journal 22(7), 2466-2472.
  40. & Fuel cell anode catalyst performance can be stabilized with a molecularly rigid film of polymers of intrinsic microporosity (PIM). RSC Advances 6(11), 9315-9319.
  41. & Polymer of Intrinsic Microporosity Induces Host-Guest Substrate Selectivity in Heterogeneous 4-Benzoyloxy-TEMPO-Catalysed Alcohol Oxidations. Electrocatalysis 7(1), 70-78.
  42. & Electrocatalytic Carbohydrate Oxidation with 4-Benzoyloxy-TEMPO Heterogenised in a Polymer of Intrinsic Microporosity. Electrochimica Acta 160, 195-201.
  43. & Highly Permeable Benzotriptycene-Based Polymer of Intrinsic Microporosity. ACS Macro Letters 4(9), 912-915.
  44. & Intrinsically Microporous Polymer Retains Porosity in Vacuum Thermolysis to Electroactive Heterocarbon. Langmuir 31(44), 12300-12306.
  45. & Intrinsically microporous polymer slows down fuel cell catalyst corrosion. Electrochemistry Communications 59, 72-76.
  46. & Polymers of intrinsic microporosity as high temperature templates for the formation of nanofibrous oxides. RSC Advances 5(89), 73323-73326.
  47. & Water desalination concept using an ionic rectifier based on a polymer of intrinsic microporosity (PIM). Journal of Materials Chemistry A 3(31), 15849-15853.
  48. & A highly permeable polyimide with enhanced selectivity for membrane gas separations. J. Mater. Chem. A 2(14), 4874-4877.
  49. & Centrotriindane- and triptindane-based polymers of intrinsic microporosity. Polymer 55(1), 326-329.
  50. & Gas Permeability of Hexaphenylbenzene Based Polymers of Intrinsic Microporosity. Macromolecules 47(23), 8320-8327.
  51. & Heterogeneous organocatalysts composed of microporous polymer networks assembled by Tröger's base formation. Polymer Chemistry 5(18), 5262
  52. & High density heterogenisation of molecular electrocatalysts in a rigid intrinsically microporous polymer host. Electrochem. Commun. 46
  53. & Intrinsically Porous Polymer Protects Catalytic Gold Particles for Enzymeless Glucose Oxidation. Electroanalysis 26(5), 904-909.
  54. & Metastable Ionic Diodes Derived from an Amine-Based Polymer of Intrinsic Microporosity. Angewandte Chemie International Edition 53(40), 10751-10754.
  55. & Molecular Modeling and Gas Permeation Properties of a Polymer of Intrinsic Microporosity Composed of Ethanoanthracene and Tröger’s Base Units. Macromolecules 47(22), 7900-7916.
  56. & Polymers of intrinsic microporosity in electrocatalysis: Novel pore rigidity effects and lamella palladium growth. Electrochimica Acta 128, 3-9.
  57. & Synthesis of cardo-polymers using Tröger's base formation. Polymer Chemistry 5(18), 5255
  58. & The synthesis of microporous polymers using Tröger's base formation. Polym. Chem. 5(18), 5267-5272.
  59. & Triptycene Induced Enhancement of Membrane Gas Selectivity for Microporous Tröger's Base Polymers. Advanced Materials 26(21), 3526-3531.
  60. & Triptycene-Based Organic Molecules of Intrinsic Microporosity. Organic Letters 16(7), 1848-1851.
  61. & An Efficient Polymer Molecular Sieve for Membrane Gas Separations. Science 339(6117), 303-307.
  62. & Polymers of Intrinsic Microporosity Containing Tröger Base for CO2 Capture. Industrial & Engineering Chemistry Research 52(47), 16939-16950.
  63. & A Spirobifluorene-Based Polymer of Intrinsic Microporosity with Improved Performance for Gas Separation. Advanced Materials 24(44), 5930-5933.
  64. & Crystal Structures of a Series of 1,1-Spiro-bis(1,2,3,4-tetrahydronaphthalene)-Based Derivatives. Journal of Chemical Crystallography 42(2), 111-118.
  65. The unexpected formation of a dihydroisobenzofuran derivative from the addition of a Grignard reagent to a 1,3-indanedione. Arkivoc 2012(7), 190
  66. & Crystal Structures of 5,6,5′,6′-Tetramethoxy-1,1′-spirobisindane-3,3′-dione and two of its Fluorene Adducts. Journal of Chemical Crystallography 41(2), 98-104.
  67. & Hexaphenylbenzene-based polymers of intrinsic microporosity. Chemical Communications 47(24), 6822
  68. & Synthesis and Gas Permeation Properties of Spirobischromane-Based Polymers of Intrinsic Microporosity. Macromolecular Chemistry and Physics 212(11), 1137-1146.
  69. & Tribenzotriquinacene-based polymers of intrinsic microporosity. Polymer Chemistry 2(10), 2257
  70. & Novel polymers of intrinsic microporosity (PIMs) derived from 1,1-spiro-bis(1,2,3,4-tetrahydronaphthalene)-based monomers. Tetrahedron Letters 50(43), 5954-5957.
  71. & A Practical and Efficient Approach to PNA Monomers Compatible with Fmoc-Mediated Solid-Phase Synthesis Protocols. European Journal of Organic Chemistry 2008(34), 5786-5797.
  72. & Novel Spirobisindanes for Use as Precursors to Polymers of Intrinsic Microporosity. Organic Letters 10(13), 2641-2643.

Conference Contributions

  1. & (2014). Design and synthesis of polymers of intrinsic microporosity for membrane-based gas separations.
  2. & (2014). Microporous polyimides for membrane gas separations.
  3. & (2014). Spirobifluorene-based polymers of intrinsic microporosity for gas separation membranes.
  4. & (2014). Triptycene-based polymers of intrinsic microporosity (PIMs) prepared via Troger's base formation.
  5. (2011). Hexaphenylbenzene-based polymers of intrinsic microporosity.
  6. & (2011). Hexaphenylbenzene-based polymers of intrinsic microporosity.
  7. & (2011). Hexaphenylbenzene-based polymers of intrinsic microporosity. Presented at PMSE Prepr.,
  8. (2011). Polymers of intrinsic microporosity (PIMs) derived from bowl-shaped monomers.
  9. & (2011). Polymers of intrinsic microporosity (PIMs) derived from bowl-shaped monomers.
  10. (2009). Novel polymers of intrinsic microporosity.
  11. & (2009). Novel polymers of intrinsic microporosity.
  12. & (2007). Polymers of intrinsic microporosity (PIMs): Multifunctional organic materials.
  13. & (2007). Polymers of intrinsic microporosity (PIMs): Multifunctional organic materials. Presented at PMSE Prepr.,