Source: https://www.dovegrouplab.com/publications/full-publication-list/
Timestamp: 2019-04-21 09:06:33+00:00

Document:
131. Polymers from Macrolactones: From Pheromones to Functional Materials. Wilson, J. A.; Ates, Z.; Pflughaupt, R. L.; Dove, A. P.; Heise, A. Prog. Polym. Sci. (2019) 91, 29 – 50.
130. Metal-free Synthesis of Poly(trimethylene carbonate) by Efficient Valorization of Carbon Dioxide. Huang, J.; De Winter, J.; Dove, A. P.; Coulembier, O. Green Chem. (2019) 21, 472 – 477.
128. Harnessing the Chemical Diversity of the Natural Product Magnolol for the Synthesis of Renewable, Degradable Neolignan Thermosets with Tunable Thermomechanical Characteristics and Antioxidant Activity. Waker, K. T.; Weems, A. C.; Lim, S.-M.; Khan, S.; Felder, S. E.; Dove, A. P.; Wooley, K. L. Biomacromolecules (2019) 20, 109 – 117.
125. Controlling the Size of Two-Dimensional Polymer Platelets for Water-in-Water Emulsifiers. Inam, M.; Jones, J. R.; Perez-Madrigal, M. M.; Arno, M. C.; Dove, A. P.; O’Reilly, R. K. ACS Cent. Sci. (2018) 4, 63 – 70.
124. Design of synthetic extracellular matrices for probing breast cancer cell growth using robust cyctocompatible nucleophilic thiol-yne addition chemistry. Macdougall, L. J.; Wiley, K. L.; Kloxin, A.; Dove, A. P. Biomaterials (2018) 178, 435 – 447.
123. Organocatalysed depolymerisation of PET in a fully sustainable cycle using thermally stable protic ionic salt. Jehanno, C.; Flores, I.; Dove, A. P.; Muller, A. J.; Rupierez, F.; Sardon H. Green Chem. (2018) 20, 1205 – 1212.
122. Ring-Opening Polymerisation: On Like a Light. Kuroishi, P. K.; Dove, A. P. Nature Catalysis (2018), 1, 486 – 487.
121. Exploiting topology-directed nanoparticle disassembly for triggered drug delivery Arno, M. C.; Williams, R. J.; Bexis, P.; Pitto-Barry, A. P.; Kirby, N.; Dove, A. P. ; O’Reilly, R. K. Biomaterials (2018) 180, 184 – 192.
120. Plastics recylcing with a difference. Sardon, H.; Dove, A. P. Science (2018), 360, 6387, 380 – 381.
118. Organic Catalysis Outlook: Roadmap for the Future. Dove A. P. in ‘Organic Catalysis for Polymerisation’ (Eds Dove, A. P.; Sardon, H.; Naumann, S.), (2018), 607 – 633.
117. Organocatalysis for Depolymerisation Jehanno, C.; Demarteau, J..; Dove, A. P. in ‘Organic Catalysis for Polymerisation’ (Eds Dove, A. P.; Sardon, H.; Naumann, S.), (2018), 607 – 633.
116. Isoselective Ring-Opening Polymerization of rac-Lactide from Chiral Takemoto’s Organocatalysts: Elucidation of Stereocontrol Orhan, B.; Tschan, M. J. J.; Wirotius, A.-L.; Dove, A. P.; Coulembier, O.; Taton, D. ACS Macro Lett. (2018) 7, 1413 – 1419.
114. Self-healing, stretchable and robust interpenetrating network hydrogels. Macdougall, L. J.; Perez-Madrigal, M. M.; Shaw, J. E.; Inam, M.; Hoyland, J. A.; O’Reilly, R. K.; Richardson, S. M.; Dove, A.P. Biomater. Sci. (2018) 6, 2932 – 2937.
113. Facile Synthesis of Reversibly Crosslinked Poly(ionic liquid)-type Gels: Recyclable Supports for Organocatalysis by N-Heterocyclic Carbenes. Garmendia, S.; Lambert, R.; Wirotius, A.-L.; Vignolle, J.; Dove, A. P.; O’Reilly, R. K.; Taton, D. Eur. Polym. J. (2018) 107, 82 – 88.
112. pH Responsive, Functionalizable Spyrocyclic Polycarbonate: A Versatile Platform for Biocompatible Nanoparticles. Arno, M. C.; Brannigan, R. P.; Policastro, G.M.; Becker, M. L.; Dove, A. P. Biomacromolecules (2018) 19, 3427 – 3434.
111. Nonswelling thiol-yne crosslinked hydrogel materials as cytocompatible soft tissue scaffolds. Macdougall, L. J.; Perez-Madrigal, M. M.; Arno, M. C.; Dove, A. P. Biomacromolecules (2018), 19, 1378 – 1388.
110. Efficient polymerization and post-modification of N-substituted eight-membered cyclic carbonates containing allyl groups. Yuen, A. Y.; Bossion, A.; Veloso, A.; Mecerreyes, D.; Hedrick, J. L.; Dove, A. P. ; Sardon, H. Polym. Chem. (2018) 9, 2458 – 2467.
109. Precision Epitaxy for Aqueous 1D and 2D Poly(-caprolactone) Assemblies. Arno, M. C.‡; Inam, M.‡; Coe, Z.; Cambridge, G.; Macdougall, L. J.; Keogh, R.; Dove, A. P.; O’Reilly, R. K. J. Am. Chem. Soc. (2017), 139, 16980 – 16985.
108. Unlocking the potential of poly(ortho ester)s: A general catalytic approach to the synthesis of surface erodible materials. Tschan, M. J.-L., Ieong, N. S. Todd, R.; Everson, J.; Dove, A. P. Angew. Chem. Int. Ed. (2017), 56, 16664 – 16668.
107. Poly(oligo (ethylene glycol) vinyl acetate)s: A versatile new class of thermoresponsive and biocompatible polymers. Hedir, G. G.; Arno, M. C.; Langlais, M.; Husband, J. T.; O’Reilly, R. K.; Dove, A. P. Angew. Chem. Int. Ed. (2017), 56, 9178 – 9182.
106. 1D vs. 2D shape selectivity in the crystallization-driven self-assembly of polylactide block copolymers. Inam, M.; Cambridge, G.; Pitto-Barry, A.; Laker, Z. P. L.; Wilson, N. R.; Mathers, R. T.; Dove, A. P.; O’Reilly, R. K. Chem. Sci. (2017), 8, 4223-4230.
105. Synthesis of Degradable Poly(vinyl alcohol) by Radical Ring-Opening Copolymerization and Ice Recrystallization Inhibition Activity. Hedir, G, G; Stubbs, C.. Aston, P.; Dove, A. P.; Gibson, M. I. ACS Macro Lett. (2017) 6, 1404 – 1408.
104. Understanding the CDSA of poly(lactide) containing triblock copolymers. Yu, W.; Inam, M.; Jones, J. R.; Dove, A. P.; O’Reilly, R. K. Polym. Chem. (2017), 8, 5504 – 5512.
103. Hydrogel Scaffolds for Differentiation of Adipose-Derived Stem Cells. Huang, Q.; Zou, Y.; Arno, M. C.; Chen, S.; Wang, T.; Gao, J.; Dove, A. P.; Du, J. Chem. Soc. Rev. (2017) 46, 6255 – 6275.
102. Application of Modified Amino Acid-Derived Diols as Chain Extenders in the Synthesis of Novel Thermoplastic PolyesterUrethane Elastomers. Brannigan, R. P.; Walder, A.; Dove, A. P. ACS Sustainable Chem. Eng. (2017) 5, 6902 – 6909.
101. Special Issue in: Organocatalyzed polymerizations. Sardon, H.; Dove, A. P.; Taton, D.; Coulembier. O.; Muller, A. J. Eur. Polym. J. (2017) 95, 625 – 627.
100. Organocatalytic ring-opening polymerization of l-lactide in bulk: A long standing challenge. Mezzasalma, L.; Dove, A. P.; Coulembier, O. Eur. Polym. J. (2017) 95, 628 -634.
99. Isotactic Degradable Polyesters derived from O-Carboxyanhydrides of L-lactic and L-malic acid using a Single Organocatalyst/Initiator System. Bexis, P.; De Winter, J.; Coulembier, O.; Dove, A. P. Eur. Polym. J. (2017) 95, 660 – 670.
98. Synthesis of aliphatic polycarbonates with a tuneable thermal response. Thomas, A. W.; Kuroishi, P. K.; Perez-Madrigal, M. M.; Whittaker, A. K.; Dove, A. P. Polym. Chem. (2017), 8, 5082 – 5090.
97. Efficient In Situ Nucleophilic Thiol-yne Click Chemistry for the Synthesis of Strong Hydrogel Materials with Tunable Properties. Macdougall, L. J.; Truong, V. X.; Dove, A. P. ACS Macro Lett. (2017) 6, 93 – 97.
96. Synthesis, properties and biomedical applications of hydrolytically degradable materials based on aliphatic polyesters and polycarbonates. Brannigan, R. P.; Dove, A. P. Biomater. Sci. (2017) 5, 9 – 21.
95. Independent Control of Elastomer Properties through Stereocontrolled Synthesis. Bell. C. A.; Yu, J.; Barker, I. A.; Truong, V. X.; Cao, Z.; Dobrinyin, A. V.; Becker, M. L.; Dove, A. P. Angew. Chem. Int. Ed. (2016) 55, 13076 – 13080.
94. Shape Effect of Glyco-nanoparticles on Macrophage Cellular Uptake and Immune Response. Li, Z.; Sun, L.; Zhang, Y.; Dove, A. P.; O’Reilly, R. K.; Chen, G. ACS Macro Lett. (2016) 5, 1059 – 1064.
93. Tunable Thermoplastic Poly(ester–urethane)s Based on Modified Serinol Extenders. Brannigan, R. P.; Walder, A.; Dove, A. P. Macromolecules (2016) 49, 2518 – 2525.
92. Cyclic Graft Copolymer Unimolecular Micelles: Effects of Cyclization on Particle Morphology and Thermoresponsive Behavior. Williams, R. J.; Pitto-Barry, A.; Kirby, N.; Dove, A. P.; O’Reilly, R. K. Macromolecules (2016) 49, 2802 – 2813.
91. Dependence of Copolymer Sequencing Based on Lactone Ring Size and ε-Substitution. Wilson, J. A.; Hopkins, S. A; Wright, P. W.; Dove, A. P ACS Macro Lett. (2016) 5, 346 – 350.
90. Synthesis of degradable poly(e-caprolactone)-based graft copolymers via a “grafting-from” approach. Bexis, P.; Bell, C. A.; Thomas, A. W.; Dove, A. P. Polym. Chem. (2016) 7, 7126 – 7134.
89. Synthesis and post-polymerisation modification of an epoxy-functional polycarbonate. Kuroishi, P. K.; Bennison, M. J.; Dove, A. P. Polym. Chem. (2016) 7, 7108 – 7115.
88. Controlling Integrin-Based Adhesion to a Degradable Electrospun Fibre Scaffold via SI-ATRP. Rodda, A. E.; Ercole, F.; Glatauer, V.; Nisbet, D. R.; Healy, K. E.; Dove, A. P.; Meagher, L.; Forsythe, J. S. J. Mat. Chem. B (2016) 4, 7314-7322.
87. Post-Polymerisation Modifications of Alkene-Functional Polycarbonates for the Development of Advanced Biomaterials. Thomas, A. W.; Dove, A. P. Macromol. Biosci. (2016) 16, 1762 – 1775.
86. Synthesis of Poly(ω-pentadecalactone)-b-poly(acrylate) Diblock Copolymers via a Combination of Enzymatic Ring-Opening and RAFT Polymerization Techniques. Pfughaupt, R. L.; Hopkins, S. A; Wright, P. W.; Dove, A. P. J. Polym. Sci. Part A: Polym. Chem. (2016) 54, 3326–3335.
85. Core functionalization of semi-crystalline polymeric cylindrical nanoparticles using photo-initiated thiol–ene radical reactions. Sun, L; Pitto-Barry, A.; Thomas, A. W.; Inam, M.; Doncom, K.; Dove, A. P.; O’Reilly, R. K. Polym. Chem. (2016) 7, 2337-2341.
84. Highly Polarized Alkenes as Organocatalysts for the Polymerization of Lactones and Trimethylene Carbonate. Naumann, S.; Thomas, A. W.; Dove, A. P. ACS Macro Lett. (2016) 5, 134 – 138.
83. N-Heterocyclic Carbenes for Metal-Free Polymerization Catalysis: An Update. Naumann, S.; Dove, A. P. Polym. Int. (2016) 65, 16 – 27.
82. Dual Catalysis for Selective Ring-Opening Polymerization of Lactones: Evolution toward Simplicity. Naumann, S.; Scholten, P. B. V.; Wilson, J. A.; Dove, A. P. J. Am. Chem. Soc. (2015) 137, 14439–14445.
81. N-Heterocyclic Olefins as Organocatalysts for Polymerization: Preparation of Well-Defined Poly(propylene oxide). Naumann, S.; Thomas, A. W.; Dove, A. P. Angew Chem. Int. Ed. (2015) 54, 9550 – 9554.
80. Simultaneous orthogonal dual-click approach to tough, in situ-forming hydrogels for cell encapsulation. Truong, V. X.; Ablett, M. P.; Richardson, S. M.; Hoyland, J. A.; Dove, A. P. J. Am. Chem. Soc. (2015) 137, 1618 – 1622.
79. Amphiphilic block copolymer self-assemblies of poly(NVP)-b-poly(MDO-co-vinyl esters): Tunable dimensions and functionalities. Hedir, G. G.; Pitto-Barry, A.; Dove, A . P.; O’Reilly, R. K. J. Polym. Sci. Part A: Polym. Chem. (2015) 53, 2699 – 2710.
78. Synthesis and post-polymerization modification of one-pot ω-pentadecalactone block-like copolymers. Wilson, J. A.; Hopkins, S. A; Wright, P. W.; Dove, A. P Biomacromolecules (2015), 16, 3191–3200.
77. Controlling the Synthesis of Degradable Vinyl Polymers by Xanthate-Mediated Polymerization. Bell, C. A.; Hedir, G. G.; O’Reilly, R. K.; Dove, A. P. Polym. Chem. (2015) 6, 7447–7454.
76. Osmium Atoms and Os2 Molecules Move Faster on Selenium-Doped Compared to Sulfur-Doped Boronic Graphenic Surfaces. Barry, N. P. E.; Pitto-Barry, A.; Tran, J.; Spencer, S. E. F,; Johansen, A. M.; Sanchez, A. M. Dove, A. P.; O’Reilly, R. K.; Deeth, R. J.; Beanland, R.; Sadler, P. J. Chem. Mater. (2015) 27, 5100 – 5105.
75. Functional Degradable Polymers by Radical Ring-Opening Copolymerization of MDO and Vinyl Bromobutanoate: Synthesis, Degradability and Post-Polymerization Modification. Hedir, G. G.; Bell, C. A.; O’Reilly, R. K.; Dove, A. P. Biomacromolecules (2015), 16, 2049 – 2058.
74. N-Heterocyclic Carbenes as Organocatalysts for Polymerizations: Trends and Frontiers. Naumann, S.; Dove, A. P. Polym. Chem. (2015), 6, 3185 – 3200.
73. Self-assembly of cyclic polymers. Williams, R. J.; Dove, A. P.; O’Reilly, R. K. Polym. Chem. (2015), 6, 2998 – 3008.
72. Synthesis of Pentadecalactone Copolymers with Independently Tunable Thermal and Degradation Behavior. Wilson, J. A.; Hopkins, S. A; Wright, P. W.; Dove, A. P Macromolecules (2015), 48, 950–958.
71. Structural reorganization of cylindrical nanoparticles triggered by polylactide stereocomplexation. Sun, L; Pitto-Barry, A.; Kirby, N.; Schiller, T. L.; Sanchez, A. M.; Dyson, M. A.; Sloan, J.; Wilson, N. R.; O’Reilly R. K.; Dove A. P. Nature Commun. (2014) 5, 5746.
70. Step-Growth Polymerization in the 21st Century. Dove, A. P.; Meier, M. A. R. Macromol. Chem. Phys. (2014), 215, 2135 – 2137.
69. Precious metal carborane polymer nanoparticles: characterisation of micellar formulations and anticancer activity. Barry, N. P. E.; Pitto-Barry, A.; Romero-Canelón, I.; Tran, J.; Soldevila-Barreda, J. J.; Hands-Portman, I.; Smith, C. J.; Kirby, N.; Dove, A. P.; O’Reilly, R. K.; Beanland, R.; Sadler, P. J. Faraday Discuss. (2014), 175, 229 – 240.
68. Block copolymer materials from the organocatalytic ring-opening polymerization of a pentaerythritol-derived cyclic carbonate. Brannigan, R. P.; Walder, A.; Dove, A. P. J. Polym. Sci. Part A: Polym. Chem. (2014) 52, 2279–2286.
67. Fabrication of crystals from single metal atoms Barry, N. P. E.; Pitto-Barry, A.; Sanchez, A. M.; Dove, A. P.; Procter, R. J.; Soldevila-Barreda, J. J.; Kirby, N.; Hands-Portman, I.; Smith, C. J.; O’Reilly, R. K.; Beanland, R.; Sadler, P. J. Nature Commun. (2014) 5, 3851.
66. Synthetic strategies, sustainability and biological applications of malic acid-based polymers. King,S. L.; Truong, V. X.; Kirchhoefer, C.; Pitto-Barry, A.; Dove, A. P. Green Mater (2014) 2, 107 – 122.
65. Implementation of metal-free ring-opening polymerization in the preparation of aliphatic polycarbonate materials. Mespouille, L.; Coulembier, O.; Kawalec, M.; Dove, A. P.; Dubois, P. Prog. Polym. Sci. (2014), 39, 1144–1164.
64. Functional Degradable Polymers by Xanthate-Mediated Polymerization. Hedir, G. G.; Bell, C. A.; Ieong, N. S.; Chapman, E.; Collins, I. R.; O’Reilly, R. K.; Dove, A. P. Macromolecules (2014), 47, 2847–2852.
63. Chaining up carbon dioxide. Dove, A. P. Nature Chem. (2014), 6, 276 – 277.
62. ‘Immortal’ ring-opening polymerisation of ω-pentadecalactone by Mg(BHT)2(THF)2. Wilson, J. A.; Hopkins, S. A; Wright, P. W.; Dove, A. P Polym. Chem. (2014), 5, 2691 – 2694.
61. Surface grafted poly(ε-caprolactone) prepared using organocatalysed ring-opening polymerisation followed by SI-ATRP. Ercole, F.; Rodda, A. E.; Meager, L.; Forsythe J. S.; Dove, A. P. Polym. Chem. (2014), 5, 2809 – 2815.
60. A Microstereolithography Resin Based on Thiol-Ene Chemistry: Towards Biodegradable Extracellular Constructs for Tissue Engineering. Barker, I. A.; Ablett, M. P.; Gilbert, H. T.; Leigh, S. J.; Covington, J. A.; Hoyland, J. A.; Richardson, S. M.; Dove, A. P. Biomater. Sci. (2014), 2, 472 – 475.
59. Expanding the scope of the crystallization-driven self-assembly of polylactide-containing polymers. Pitto-Barry, A.; Dove, A. P.; O’Reilly, R. K. Polym. Chem. (2014), 5, 1427 – 1436.
58. Control over Molar mass, Dispersity, End-groups and Kinetics in Cyclopolymerization of ortho-Phthalaldehyde : Adapted Choice of Phosphazene Organocatalyst. De Winter, J.; Dove, A. P.; Knoll, A.; Gerbaux, P.; Dubois, Ph.; Coulembier, O. Polym. Chem. (2014), 5, 706 – 711.
57. In situ-forming robust chitosan-poly(ethylene glycol) hydrogels prepared by copper-free azide-alkyne click reaction for tissue engineering. Truong, V. X.; Ablett, M. P.; Gilbert, H. T. J.; Bowen, J.; Richardson, S. M.; Hoyland, J. A.; Dove, A. P. Biomater. Sci. (2014), 2, 167 – 175.
56. Tuning the Size of Cylindrical Micelles from Poly(L-Lactide)-b-Poly(Acrylic Acid) Diblock Copolymers based on Crystallization-Driven Self-Assembly. Sun, L.; Petzetakis, N.; Pitto-Barry, A.; Schiller, T. L.; Kirby, N.; Keddie, D. J.; Boyd, B. J.; O’Reilly, R. K.; Dove, A. P. Macromolecules (2013), 46, 9074–9082.
55. Directed Differentiation and Neurite Extension of mouse Embryonic Stem Cell on Aligned Poly(lactide) Nanofibers Functionalized with YIGSR Peptide. Smith Callahan, L. A.; Xiea, S.; Barker, I. A.; Zhenga, J.; Reneker, D. H.; Dove, A. P.; Becker, M. L. Biomaterials (2013), 34, 9089 – 9095.
54. Poly(D-glucose carbonate) Block Copolymers: A Platform for Natural Product-Based Nanomaterials with Solvothermatic Characteristics. Gustafson, T. P.; Lonnecker, A. T.; Heo, G. S.; Zhang, S.; Dove, A. P.; Wooley, K. L. Biomacromolecules (2013), 14, 3346 – 3353.
53. A Simple and Efficient Synthesis of an Acid-Labile Polyphosphoramidate by Organobase-Catalyzed Ring-Opening Polymerization and Transformation to Polyphosphoester Ionomers by Acid Treatment. Zhang, S.; Wang, H.; Shen, Y.; Zhang, F.; Seetho, K.; Zou, J.; Taylor, J.-S. A.; Dove, A. P.; Wooley, K. L. Macromolecules (2013), 46, 5141 – 5149.
52. Organocatalytic, Regioselective Nucleophilic “Click” Addition of Thiols to Propiolic Acid Esters for Polymer–Polymer Coupling Truong, V. X.; Dove, A. P. Angew. Chem. Int. Ed. (2013), 52, 4132 – 4136.
51. Hollow Block Copolymer Nanoparticles 2 through a Spontaneous One-step 3 Structural Reorganization. Petzetakis, N.; Robin, M. P.; Patterson, J. P.; Kelley, E. G.; Cotanda, P.; Bomans, P. H. H.; Sommerdijk, N. A. J. M.; Dove, A. P.; Epps III, T. H.; O’Reilly, R. K. ACS Nano (2013), 7, 1120 – 1128.
50. Triarylsulfonium Hexafluorophosphate Salts as Photoactivated Acidic Catalysts for Ring-Opening Polymerisation. Barker, I. A.; Dove, A. P. Chem. Commun. (2013), 49, 1205 – 1207.
49. Benzyl Bispidine as an Efficient Replacement for (-)-Sparteine in Ring Opening Polymerisation. Todd, R.; Rubio, G.; Hall, D. J.; Tempelaar, S.; Dove, A. P. Chem. Sci. (2013) 4, 1092 – 1097.
48. Fabrication of 3-Dimensional Cellular Constructs via Microstereolithography Using a Simple, Three-Component, Poly(Ethylene Glycol) Acrylate-Based System. Leigh, S. J.; Gilbert, H. T.; Barker, I. A.; Richardson, S. M.; Hoyland, J. A.; Covington, J. A.; Dove, A. P. Biomacromolecules (2013), 14, 186 – 192.
47. Morpholine-Functionalized Polycarbonate Hydrogel for Heavy Metal Ion Sequestration. Kawalec M.; Dove, A. P.; Mespouille, L.; Dubois, P. Polym. Chem. (2013), 4, 1260-1270.
46. Synthesis and Post-Polymerisation Modification of Aliphatic Poly(carbonate)s prepared by Ring-Opening Polymerisation. Tempelaar, S.; Mespouille, L.; Coulembier, O.; Dubois, Ph.; Dove, A. P. Chem. Soc. Rev. (2013), 42, 1312 – 1336.
45. Preparation of in situ-Forming Poly(5-methyl-5-allyloxycarbonyl-1,3-dioxan-2-one)-Poly(ethylene glycol) Hydrogels with Tuneable Swelling, Mechanical Strength and Degradability Truong, V. X.; Barker, I. A.; Tan, M.; Mespouille, L.; Dubois, Ph.; Dove A. P. J. Mater. Chem. B. (2013), 1, 221 – 229.
44. Organocatalytic Synthesis and Post-Polymerization Functionalization of Propargyl-Functional Poly(Carbonate)s. Tempelaar, S.; Barker, I. A.; Truong, V. X.; Hall, D. J.; Mespouille, L.; Dubois, Ph.; Dove A. P. Polym. Chem. (2013), 4, 174 – 183.
43. Organic Catalysis for Ring-Opening Polymerization. Dove, A. P. ACS Macro Lett. (2012), 1, 1409 – 1412.
42. Orthogonal Modification of Norbornene-Functional Degradable Polymers. Williams, R. J.; Barker, I. A.; O’Reilly, R. K.; Dove, A. P. ACS Macro Lett. (2012), 1, 1285–1290.
41. Nanosponge formation from organocatalytically synthesized poly(carbonate) copoplymers” Tempelaar, S.; Stevens, D. M.; Dove, A. P.; Harth, E. ACS Macro Lett. (2012), 1, 915 – 918.
40. Crystallization Driven Sphere-to-rod Transition of Poly(lactide)-b-Poly(acrylic acid) Diblock Copolymers: Mechanism and Kinetics. Petzetakis, N. Walker, D. A.; Dove, A. P; O’Reilly, R. K. Soft Matter (2012), 8, 7408 – 7414.
39. Degradable Graft Copolymers by Ring-Opening and Reversible Addition-Fragmentation Chain Transfer Polymerization. Williams, R. J.; O’Reilly, R. K.; Dove, A. P. Polym. Chem., (2012), 3, 2156 – 2164.
38. Synthesis and Functionalization of Thiol-Reactive Biodegradable Polymers. Onbulak, S.; Tempelaar, S.; Pounder, R. J.; Gok, O.; Sanyal, R.; Dove, A. P.; Sanyal, A. Macromolecules, (2012), 45, 1715 – 1722.
37. Stereocomplexation in novel degradable amphiphilic block copolymer micelles of poly(ethylene oxide) and poly(benzyl α-malate). Pounder, R. J.; Willcock, H.; Ieong, N. S.; O’Reilly, R. K.; Dove, A. P. Soft Matter, (2011), 7, 10987 – 10993.
36. Metal-Free Functionalization of Linear Polyurethanes by Thiol-Maleimide Coupling Reactions. Billiet, L.; Gok, O; Dove, A. P.; Sanyal, A.; Nguyen, T.; Du Prez, F. E. Macromolecules, (2011), 44, 7874 – 7878.
35. Additive-Free Clicking for Polymer Functionalization and Coupling by Tetrazine–Norbornene Chemistry. Hansell, C. F; Espeel, P.; Stamenovic, M. M.; Barker, I. A.; Dove, A. P.; Du Prez, F. E.; O’Reilly, R. K. J. Am. Chem. Soc. (2011) 133, 13828 – 13831.
34. Tetrazine-Norbornene Click Reactions to Functionalize Degradable Polymers Derived from Lactide, Barker, I. A.; Hall, D. J.; Hansell, C. F.; Du Prez, F. E.; O’Reilly, R. K.; Dove, A. P. Macromol. Rapid Commun. (2011), 32, 1362 – 1366.
33. Ring-Opening Polymerization of an O-Carboxyanhydride Monomer Derived from L-Malic acid Pounder, R. J.; Fox, D. J.; Barker, I. A.; Bennison, M. J.; Dove, A. P. Polym. Chem. (2011), 2, 2204 – 2212.
32. Synthesis and post-polymerization modification of maleimide-containing polymers by ‘thiol-ene’ click and Diels–Alder chemistries Hall, D. J.; Van Den Berghe, H. M.; Dove A. P. Polym. Int. (2011), 60, 1149 – 1157.
31. Organocatalytic Synthesis and Postpolymerization Functionalization of Allyl-Functional Poly(carbonate)s Tempelaar, S.; Mespouille, L.; Dubois, Ph.; Dove, A.P. Macromolecules (2011), 44, 2084 – 2091.
30. Poly(lactide)s as Robust Renewable Materials Becker, J. M.; Dove, A. P. in ‘Green Polymerization Methods: Renewable Starting Materials, Catalysis and Waste Reduction’ (Eds Mathers, R. T.; Meier, M. A. R.), (2011), 201 – 220.
29. Cylindrical Micelles of Controlled Length from the Crystallization-Driven Self-Assembly of Poly(lactide)-Containing Block Copolymers Petzetakis, N. Dove, A. P; O’Reilly, R. K. Chem. Sci. (2011), 2, 955 – 960.
28. Organocatalytic synthesis of astaxanthin-containing poly(lactide)s Middleton H.; Tempelaar, S.; Haddleton, D. M.; Dove, A. P. Polym. Chem. (2011), 2, 595 – 600.
27. Synthesis of Poly(lactide)s with Modified Thermal and Mechanical Properties Becker, J. M.; Pounder, R. J.; Dove, A. P. Macromol. Rapid Commun. (2010), 31, 1923 – 1937.
26. Synthesis of Stereoregular Cyclic Poly(lactide)s via “Thiol−Ene” Click Chemistry Stanford, M. J.; Pflughaupt, R. L.; Dove, A. P. Macromolecules (2010), 43, 6538 – 6541.
25. Synthesis and Organocatalytic Ring-Opening Polymerization of Cyclic Esters Derived from L-Malic Acid Pounder, R. J.; Dove, A. P. Biomacromolecules (2010), 11, 1930 – 1939.
24. Development of Amino-Oxazoline and Amino-Thiazoline Organic Catalysts for the Ring-Opening Polymerisation of Lactide Becker, J. M.; Tempelaar, S.; Stanford, M. J.; Pounder, R. J.; Covington, J. A.; Dove, A. P. Chem. Eur. J. (2010), 16, 6099-6105.
23. Towards poly(ester) nanoparticles: Recent advances in the synthesis of functional poly(ester)s by ring-opening polymerization Pounder, R. J.; Dove, A. P. Polym. Chem. (2010), 1, 260-271.
22. Stereocontrolled ring opening polymerisation of lactide Stanford, M. J.; Dove, A. P. Chem. Soc. Rev. (2010), 39, 486-494.
21. One-pot synthesis of α,ω-chain end functional, stereoregular, star-shaped poly(lactide) Stanford, M. J.; Dove, A. P. Macromolecules, (2009), 42, 141-147.
20. Metal-free catalysis in ring-opening polymerization Dove, A.P. in ‘The Handbook of Ring-Opening Polymerization’ (Eds Dubois, Ph.; Coulembier, O.; Raquez, J.-M.), (2009), 357-378.
19. Propylene polymerization with cyclopentadienyltitanium(IV) hydroxylaminato complexes Dove, A. P.; Kiesewetter, E. T.; Ottenwaelder, X.; Waymouth, R. M. Organometallics (2009), 28, 405-412.
18. Controlled ring-opening polymerisation of cyclic esters: Polymer blocks in self-assembled nanostructures Dove, A. P. Chem. Commun. (Feature Article), (2008), 6446-6470.
17. Metal free thiol-maleimide ‘Click’ reaction as a mild functionalisation strategy for degradable polymers Pounder, R. J.; Stanford, M. J.; Brooks, P.; Richards, S. P.; Dove, A. P. Chem. Commun., (2008), 5158-5160.
16. Organocatalytic Ring Opening Polymerization of Trimethylene Carbonate. Nederberg, F.; Lohmeijer, B. G. G.; Leibfarth, F.; Pratt, R. C.; Choi, J.; Dove, A. P.; Waymouth, R. M.; Hedrick, J. L. Biomacromolecules, (2007), 8, 153-160.
15. Guanidine and amidine organo-catalysts for ring-opening polymerization of cyclic esters. Lohmeijer, B. G. G.; Pratt, R. C.; Leibfarth, F.; Logan, J. W.; Long, D. A.; Dove, A. P.; Nederberg, F.; Choi, J.; Wade, C.; Waymouth, R. M.; Hedrick, J. L. Macromolecules, (2006), 39, 8574-8583.
14. Exploration, Optimization, and Application of Supramolecular Thiourea-Amine Catalysts for the Synthesis of Lactide (Co)polymers. Pratt, R. C.; Lohmeijer, B. G. G.; Long, D. A.; Lundberg, P. N. P.; Dove, A. P.; Li, H.; Wade, C. G.; Waymouth, R. M.; Hedrick, J. L. Macromolecules, (2006), 39, 7863-7871.
13. N-Heterocyclic Carbenes as Organic Catalysts. Dove, A. P.; Pratt, R. C.; Lohmeijer, B. G. G.; Li, H.; Hagberg, E. C.; Waymouth, R. M.; Hedrick, J. L. in ‘N-Heterocyclic Carbenes in Synthesis’ (Ed Nolan, S. P.), (2006), 275-296.
12. Stereoselective polymerization of rac- and meso-lactide catalyzed by sterically encumbered N-heterocyclic carbenes. Dove, A. P.; Li, H.; Pratt, R. C.; Lohmeijer, B. G. G.; Culkin, D. A.; Waymouth, R. M.; Hedrick, J. L. Chem. Commun. (2006), 2881.
11. Alcohol Adducts of N-Heterocyclic Carbenes: Latent Catalysts for the Thermally-Controlled Living Polymerization of Cyclic Esters. Coulembier, O.; Lohmeijer, B. G. G.; Dove, A. P.; Pratt, R. C.; Mespouille, L.; Culkin, D. A.; Benight, S. J.; Dubois, Ph.; Waymouth, R. M.; Hedrick, J. L. Macromolecules, (2006), 39, 5617-5628.
10. Synthetic, Structural, Mechanistic, and Computational Studies on Single-Site β-Diketiminate Tin(II) Initiators for the Polymerization of rac-Lactide. Dove, A. P.; Gibson, V. C.; Marshall, E. L.; Rzepa, H. S.; White, A. J. P.; Williams, D. J. J. Am. Chem. Soc. (2006), 128, 9834-9843.
9. N-Heterocyclic carbenes: Effective organic catalysts for living polymerization. Dove, A. P.; Pratt, R. C.; Lohmeijer, B. G. G.; Culkin, D. A.; Hagberg, E. C.; Nyce, G. W.; Waymouth, R. M.; Hedrick, J. L. Polymer (2006), 47, 4018-4025.
8. Thiourea-Based Bifunctional Organocatalysis: Supramolecular Recognition for Living Polymerization. Dove, A. P.; Pratt, R. C.; Lohmeijer, B. G. G.; Waymouth, R. M.; Hedrick, J. L. J. Am. Chem. Soc. (2005), 127, 13798-13799.
7. Latent, thermally activated organic catalysts for the on-demand living polymerization of lactide. Coulembier, O.; Dove, A. P.; Pratt, R. C.; Sentman, A. C.; Culkin, D. A.; Mespouille, L.; Dubois, Ph.; Waymouth, R. M.; Hedrick, J. L. Angew. Chem., Int. Ed. (2005), 44, 4964-4968.
6. Single-component catalyst/initiators for the organocatalytic ring-opening polymerization of lactide. Csihony, S.; Culkin, D. A.; Sentman, A. C.; Dove, A. P.; Waymouth, R. M.; Hedrick, J. L. J. Am. Chem. Soc. (2005), 127, 9079-9084.
5. Cyclopentadienyl titanium hydroxylaminato complexes as highly active catalysts for the polymerization of propylene. Dove, A. P.; Xie, X.; Waymouth, R. M. Chem. Commun. (2005), 2152.
4. Magnesium and zinc complexes of a potentially tridentate β-diketiminate ligand. Dove, A. P.; Gibson, V. C.; Marshall, E. L.; White, A. J. P.; Williams, D. J. J. Chem. Soc., Dalton Trans. (2004), 570-578.
3. Low coordinate magnesium chemistry supported by a bulky β-diketiminate ligand. Dove, A. P.; Gibson, V. C.; Hormnirun, P.; Marshall, E. L.; Segal, J. A.; White, A. J. P.; Williams, D. J. J. Chem. Soc., Dalton Trans. (2003), 3088-3097.
2. A well-defined magnesium enolate initiator for the living and highly syndioselective polymerisation of methyl methacrylate. Dove, A. P.; Gibson, V. C.; Marshall, E. L.; White, A. J. P.; Williams, D. J. Chem. Commun. (2002), 1208.
1. A well defined tin(II) initiator for the living polymerisation of lactide. Dove, A. P.; Gibson, V. C.; Marshall, E. L.; White, A. J. P.; Williams, D. J. Chem. Commun. (2001), 283.

References: V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V. 
 V.