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• Journal article
  Fernandez-Alvarez VM, Ho SKY, Britovsek GJP, Maseras Fet al., 2018,

  A DFT-based mechanistic proposal for the light-driven insertion of dioxygen into Pt(ii)-C bonds

  , CHEMICAL SCIENCE, Vol: 9, Pages: 5039-5046, ISSN: 2041-6520
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  • Citations: 9
• Journal article
  Britovsek GJP, Merlini ML, Swart M, Belanzoni Pet al., 2018,

  Understanding the Catalase-Like Activity of a Bioinspired Manganese(II) Complex with a Pentadentate NSNSN Ligand Framework. A Computational Insight into the Mechanism

  , ACS Catalysis, ISSN: 2155-5435
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• Journal article
  Nobbs JD, Tomov AK, Young CT, White AJP, Britovsek GJPet al., 2018,

  From alternating to selective distributions in chromium-catalysed ethylene oligomerisation with asymmetric BIMA ligands

  , Catalysis Science and Technology, Vol: 8, Pages: 1314-1321, ISSN: 2044-4753

  The oligomerisation of ethylene with chromium-based catalysts containing asymmetric BIMA (bis(benzimidazole)methylamine) ligands produces linear alpha olefins (LAOs) that follow an alternating distribution. The catalytic activity and the degree of alternation is affected by the different ligands; in particular variations at the backbone of the ligand affect the nature of the distribution. For certain catalysts a deviation from regular alternating behaviour is observed, whereby increased amounts of 1-hexene and 1-octene (up to 29 mol%) are obtained compared to the amount expected from the distribution analysis based on C₁₀–C₃₄ LAOs. This behaviour towards more selective oligomerisation to 1-hexene and 1-octene can be explained by varying probabilities of single and double ethylene insertion. The deviations will depend on the size of the metallacycle and are most pronounced early on during the metallacycle growth.

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• Journal article
  Britovsek GJP, McGuinness DS, Tomov AK, 2016,

  Mechanistic study of ethylene tri- and tetramerisation with Cr/PNP catalysts: effects of additional donors

  , Catalysis Science and Technology, Vol: 6, Pages: 8234-8241, ISSN: 2044-4753

  The mechanism of ethylene trimerisation and tetramerisation with chromium–diphosphinoamine (Cr–PNP)catalysts has been studied by experimental and theoretical (DFT) methods. The effects of a pendant etherdonor (ortho-methoxyaryl ligand substitution) and of anion coordination to the active species have beenstudied. In the former case, coordination of the ether donor to chromium favours 1-hexene by suppressingformation of the bisIJethylene) chromacyclopentane intermediate which is postulated to be the major routeto 1-octene. The effect of anion coordination is similar and as the coordination strength increases, displacementof the anion by a second ethylene ligand becomes more difficult, again favouring trimerisationover tetramerisation. Hence, the experimentally observed effects of pendant donor coordination andchanges in anion coordination strength can be rationalised.

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• Journal article
  Tomov AK, Nobbs JD, Chirinos JJ, Saini PK, Malinowski R, Ho SKY, Young CT, McGuinness DS, White AJP, Elsegood MRJ, Britovsek GJPet al., 2016,

  Alternating alpha-olefin distributions via single and double insertions in chromium-catalyzed ethylene oligomerization.

  , Organometallics, Vol: 36, Pages: 510-522, ISSN: 0276-7333

  The catalytic oligomerization of ethylene with chromium-based complexes containing bis(benzimidazolemethyl)amine (BIMA) ligands results in alternating distributions of linear α-olefins (LAOs). Extremely high activities are obtained (>100 000 g mmol–1 h–1 bar–1) with N-alkyl-substituted BIMA ligands, whereas bulky groups on the central nitrogen or alternative central donors result in much lower activities. Variations in the ligand backbone, as well as methylation of the benzimidazole units, lead to reduction in activity. The alternating LAO distributions have been mathematically analyzed using second-order recurrence relations. The shape of the distributions is affected by ethylene pressure (1–4 bar) and by the cocatalyst to some degree. On the basis of the results and analysis presented herein, we propose that the alternating behavior originates from the ability of these chromium BIMA catalysts to undergo single as well as double ethylene insertion reactions. A minor second distribution (<5 wt %) of 2-ethyl-1-alkenes is obtained under certain conditions, resulting from incorporation of 1-butene. DFT studies (M06L) and experimental observations regarding the reaction between AlMe3 and the N-methyl BIMA ligand 2 have shown that deprotonation of the benzimidazole N–H units can occur, which suggests a change in coordination of the BIMA ligand under oligomerization conditions.

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• Journal article
  Britovsek GJ, McGuinness DS, 2016,

  A DFT mechanistic study on ethylene tri- and tetramerization with Cr/PNP catalysts: single versus double insertion pathways

  , Chemistry - A European Journal, Vol: 22, Pages: 16891-16896, ISSN: 0947-6539

  The mechanism of ethylene trimerization and tetramerization with a chromium-diphosphinoamine (Cr-PNP) catalyst system has been studied by theoretical (DFT) methods. Two representative ligands have been explored, namely Ph2 PN(Me)PPh2 and (o-MeC6 H4 )2 PN(Me)P(o-MeC6 H4 )2 . Calculations on the former ligand reveal how a combination of single and double ethylene insertion mechanisms may lead to 1-hexene, 1-octene and the major side products (cyclopentanes and n-alkanes). For the latter ligand, introduction of o-alkyl substitution leads to a more sterically congested active species, which suppresses the available pathways for tetramerization and side product formation. Hence, the high selectivity of o-aryl substituted PNP ligands for trimerization can be rationalized.

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• Journal article
  Petersen AR, White AJ, Britovsek GJ, 2016,

  Divergent reactivity of platinum(II) and palladium(II) methylperoxo complexes and the formation of an unusual hemi-aminal complex

  , Dalton Transactions, Vol: 45, Pages: 14520-14523, ISSN: 1477-9226

  The 6,6′′-diaminoterpyridine palladium(II) methylperoxo complex eliminates methyl hydroperoxide and reacts with acetone to form a novel hemi-aminal palladium complex, whereas the analogous platinum(II) complex generates formaldehyde and a platinum(II) hydroxo complex.

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• Journal article
  Martinez-Ferrate O, Lopez-Valbuena JM, Martinez Belmonte M, White AJP, Benet-Buchholz J, Britovsek GJP, Claver C, van Leeuwen PWNMet al., 2016,

  Novel iminopyridine derivatives: ligands for preparation of Fe(II) and Cu(II) dinuclear complexes

  , Dalton Transactions, Vol: 45, Pages: 3564-3576, ISSN: 1477-9226

  A series of imino- and amino-pyridine ligands based on dihydrobenzofurobenzofuran (BFBF) and methanodibenzodioxocine (DBDOC) backbones have been synthesized. These ligands form exclusively dinuclear complexes with metals such as iron(II) and copper(II). The structures for complexes 15, 16, 18, 19, 20, 21, 23, and 24 were determined by X-ray crystallography. The complexes show large distances for the metal nuclei and different geometries depending on the nature of the metal. An octahedral geometry was observed for the iron(II) complexes, while copper(II) complex 24 showed a distorted trigonal bipyramidal geometry. The iron(II) complexes showed activity as catalysts in the cycloaddition of CO2 to epoxides, obtaining moderate yields of cyclic carbonates.

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• Journal article
  Britovsek GJP, Malinowski R, McGuinness DS, Nobbs JD, Tomov AK, Wadsley AW, Young CTet al., 2015,

  Ethylene Oligomerisation Beyond Schulz-Flory Distributions

  , ACS Catalysis, Vol: 5, Pages: 6922-6925, ISSN: 2155-5435

  The oligomerisation of ethylene producesα-olefin distributions ranging from Schulz-Flory distributionsto alternating and selective oligomer distributionswhich can be mathematically analysed and characterisedby recurrence relations.

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• Journal article
  Britovsek GJP, McGuinness DS, Wierenga TS, Young CTet al., 2015,

  Single- and Double-Coordination Mechanism in Ethylene Tri- and Tetramerization with Cr/PNP Catalysts

  , ACS Catalysis, Vol: 5, Pages: 4152-4166, ISSN: 2155-5435

  The mechanism of ethylene trimerization and tetramerization with a chromium–diphosphinoamine (Cr–PNP) catalyst system has been studied with combined experimental and theoretical methods. Of the total product output, 1-octene, cyclopentanes, n-alkanes, and higher (C10+) olefins are formed with a fractional (∼1.4) order response to ethylene concentration, whereas 1-hexene formation is approximately first-order in ethylene. Theoretical studies suggest a mechanism involving a cationic monometallic catalyst in Cr(I) and Cr(III) formal oxidation states. A key feature of the developed model is the occurrence of a double-coordination mechanism in which a bis(ethylene) chromacyclopentane intermediate is responsible for 1-octene formation as well as the other coproducts that have a greater than first-order response to ethylene. In contrast, 1-hexene is formed primarily from a mono(ethylene) chromacyclopentane intermediate. The selectivity of catalysis is governed by the competition between single- and double-coordination pathways. The mechanistic model developed displays excellent correlation with experimental observations and is able to fully explain the formation of all products generated with this catalyst.

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• Book chapter
  Grau M, Britovsek GJP, 2015,

  High-valent iron in biomimetic alkane oxidation catalysis

  , IRON CATALYSIS II, Editors: Bauer, Publisher: SPRINGER-VERLAG BERLIN, Pages: 145-171, ISBN: 978-3-319-19395-3

  The combination of iron salts or complexes with strong oxidants such as hydrogen peroxide results in the formation of high-valent iron oxo species, the nature of which has been under discussion in the chemical literature for more than a century. Recent advances in the design and development of molecular iron-based oxidation catalysts and their mechanistic understanding are summarised in this chapter, in particular iron complexes featuring tetradentate and pentadentate ligands. Inspired by enzymatic systems based on heme and nonheme ligand environments, the development of biomimetic iron-based catalysts for the selective oxidation of alkanes and alkenes can potentially be applied in a range of areas, from late stage functionalisation of natural product synthesis to large-scale oxidation of hydrocarbons.

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• Journal article
  Martínez-Ferraté O, Britovsek GJP, Claver C, van Leeuwen PWNMet al., 2015,

  C–H benzylic oxidation promoted by dinuclear iron DBDOC iminopyridine complexes

  , Inorganica Chimica Acta, ISSN: 0020-1693
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• Journal article
  Petersen AR, Taylor RA, Vicente-Hernandez I, Mallender PR, Olley H, White AJP, Britovsek GJPet al., 2014,

  Oxygen insertion into metal carbon bonds: formation of methylperoxo Pd(II) and Pt(II) complexes via photogenerated dinuclear intermediates

  , Journal of the American Chemical Society, Vol: 136, Pages: 14089-14099, ISSN: 1520-5126

  Platinum(II) and palladium(II) complexes [M(CH₃)(L)]SbF₆ with substituted terpyridine ligands L undergo light-driven oxygen insertion reactions into metal methyl bonds resulting in methylperoxo complexes [M(OOCH₃)(L)]SbF₆. The oxygen insertion reactions occur readily for complexes with methyl ligands that are activated due to steric interaction with substituents (NH₂, NHMe or CH₃) at the 6,6″-positions on the terpyridine ligand. All complexes exhibit attractive intermolecular π···π or M···M interactions in the solid state and in solution, which lead to excited triplet dinuclear M–M complexes upon irradiation. A mechanism is proposed whereby a dinuclear intermediate is generated upon irradiation that has a weakened M–C bond in the excited state, resulting in the observed oxygen insertion reactions.

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• Journal article
  Cecchini MP, Turek VA, Demetriadou A, Britovsek G, Welton T, Kornyshev AA, Wilton-Ely JDET, Edel JBet al., 2014,

  Heavy Metal Sensing Using Self-Assembled Nanoparticles at a Liquid–Liquid Interface

  , Advanced Optical Materials
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• Journal article
  Petersen AR, Taylor RA, Vicente-Hernandez I, Heinzer J, White AJP, Britovsek GJPet al., 2014,

  Light-Driven Methyl Exchange Reactions in Square-Planar Palladium(II) and Platinum(II) Complexes

  , ORGANOMETALLICS, Vol: 33, Pages: 1453-1461, ISSN: 0276-7333
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  • Citations: 8
• Journal article
  Grau M, Rigodanza F, White AJP, Soraru A, Carraro M, Bonchio M, Britovsek GJPet al., 2014,

  Ligand tuning of single-site manganese-based catalytic antioxidants with dual superoxide dismutase and catalase activity

  , CHEMICAL COMMUNICATIONS, Vol: 50, Pages: 4607-4609, ISSN: 1359-7345
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  • Citations: 30
• Journal article
  McGuinness DS, Chan B, Britovsek GJP, Yates BFet al., 2014,

  Ethylene Trimerisation with Cr-PNP Catalysts: A Theoretical Benchmarking Study and Assessment of Catalyst Oxidation State

  , AUSTRALIAN JOURNAL OF CHEMISTRY, Vol: 67, Pages: 1481-1490, ISSN: 0004-9425
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  • Citations: 20
• Journal article
  Grau M, Kyriacou A, Martinez FC, de Wispelaere IM, White AJP, Britovsek GJPet al., 2014,

  Unraveling the origins of catalyst degradation in non-heme iron-based alkane oxidation

  , DALTON TRANSACTIONS, Vol: 43, Pages: 17108-17119, ISSN: 1477-9226
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  • Citations: 40
• Journal article
  Grau M, England J, de Rosales RTM, Rzepa HS, White AJP, Britovsek GJPet al., 2013,

  Coordination Equilibria Between Seven- and Five-coordinate Iron(II) Complexes

  , INORGANIC CHEMISTRY, Vol: 52, Pages: 11867-11874, ISSN: 0020-1669
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  • Citations: 16
• Journal article
  Whiteoak CJ, Nobbs JD, Kiryushchenkov E, Pagano S, White AJP, Britovsek GJPet al., 2013,

  Tri(pyridylmethyl)phosphine: The Elusive Congener of TPA Shows Surprisingly Different Coordination Behavior

  , INORGANIC CHEMISTRY, Vol: 52, Pages: 7000-7009, ISSN: 0020-1669
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  • Citations: 23
• Journal article
  Coskun T, Conifer CM, Stevenson LC, Britovsek GJPet al., 2013,

  Carbodeoxygenation of Biomass: The Carbonylation of Glycerol and Higher Polyols to Monocarboxylic Acids

  , CHEMISTRY-A EUROPEAN JOURNAL, Vol: 19, Pages: 6840-6844, ISSN: 0947-6539
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  • Citations: 13
• Journal article
  Wong E, Jeck J, Grau M, White AJP, Britovsek GJPet al., 2013,

  A strong-field pentadentate ligand in iron-based alkane oxidation catalysis and implications for iron(IV) oxo intermediates

  , CATALYSIS SCIENCE & TECHNOLOGY, Vol: 3, Pages: 1116-1122, ISSN: 2044-4753
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  • Citations: 14
• Journal article
  Karpiniec SS, McGuinness DS, Britovsek GJP, Patel Jet al., 2012,

  Acetylene Cyclotrimerization with an Iron(II) Bis(imino)pyridine Catalyst

  , ORGANOMETALLICS, Vol: 31, Pages: 3439-3442, ISSN: 0276-7333
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  • Citations: 31
• Journal article
  Nobbs JD, Tomov AK, Cariou R, Gibson VC, White AJP, Britovsek GJPet al., 2012,

  Thio-Pybox and Thio-Phebox complexes of chromium, iron, cobalt and nickel and their application in ethylene and butadiene polymerisation catalysis.

  , Dalton Trans., Vol: 41, Pages: 5949-5964, ISSN: 1477-9226

  Seven bis(thiazolinyl)- and bis(thiazolyl)pyridine Thio-Pybox ligands and their metal complexes of Cr(III), Fe(II), Co(II) and Ni(II) were prepd., as well as a Ni(II) complex contg. a monoanionic bis(thiazolinyl)phenyl Thio-Phebox ligand. These new metal complexes were characterized and used as catalysts, in combination with the co-catalyst MAO, for the polymn. of ethylene and for the polymn. of butadiene. In the case of ethylene polymn., the Thio-Pybox and Thio-Phebox metal complexes showed relatively low polymn. activities, much lower compared to the related bis(imino)pyridine complexes of the same metals. In the polymn. of butadiene, several Thio-Pybox Co(II) complexes show very high activities, significantly higher than the other metal complexes with the same ligand. It is the metal, rather than the ligand, that appears to have the most profound effect on the catalytic activity in butadiene polymn., unlike in the polymn. of ethylene, where bis(imino)pyridine ligands provide highly active catalysts for a range of 1st row transition metals. The mol. structures of one ligand and eight complexes were detd. by x-ray crystallog. [on SciFinder(R)]

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• Journal article
  Smit TM, Tomov AK, Britovsek GJP, Gibson VC, White AJP, Williams DJet al., 2012,

  The effect of imine-carbon substituents in bis(imino)pyridine-based ethylene polymerisation catalysts across the transition series.

  , Catal. Sci. Technol., Vol: 2, Pages: 643-655, ISSN: 2044-4753

  The synthesis, characterization and ethylene polymn. behavior of a series of first row transition metal complexes of the general formula LMXn (M = Fe, Co, Mn, n = 2, X = Cl; M = V, Cr, Ti, n = 3, X = Cl; M = Ni, n = 2, X = Br) with bis(imino)pyridine ligands L are reported, whereby the ligands contain heteroatom substituents DRm at the imine carbon (D = O, S, m = 1, R = Me, Ph, 2,6-Me2C6H3 or D = N, m = 2, R = Me, Ph). Only the O- and S-substituted complexes show catalytic activity for the polymn. of ethylene, upon activation with methylaluminoxane (MAO). The Mn- and Ni-based catalysts were found to be inactive under these conditions. The S-substituted complexes are generally more active than the O-substituted complexes and the catalytic activities increase with the size of the substituents. Iron-, vanadium- and chromium-based catalysts give highly active catalyst systems, which in some cases are more active than the well-known ketimine catalysts. All catalysts produce highly linear polyethylene with mol. wts. affected by M, D and R. O-substituted catalyst systems are generally less active and produce lower mol. wt. polyethylene compared to S-substituted systems. [on SciFinder(R)]

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• Conference paper
  Elias S, Quinson J, Britovsek GJP, Kucernak ARJet al., 2011,

  Electrocatalytic CO2 reduction using modified electrodes

  , 242nd National Meeting of the American-Chemical-Society (ACS), Publisher: AMER CHEMICAL SOC, ISSN: 0065-7727
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• Journal article
  Conifer CM, Taylor RA, Law DJ, Sunley GJ, White AJP, Britovsek GJPet al., 2011,

  First metal complexes of 6,6 '-dihydroxy-2,2 '-bipyridine: from molecular wires to applications in carbonylation catalysis

  , DALTON TRANSACTIONS, Vol: 40, Pages: 1031-1033, ISSN: 1477-9226
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  • Citations: 28
• Journal article
  Karpiniec SS, McGuinness DS, Britovsek GJP, Wierenga TS, Patel Jet al., 2011,

  High activity acetylene polymerisation with a bis(imino) pyridine iron(II) catalyst

  , CHEMICAL COMMUNICATIONS, Vol: 47, Pages: 6945-6947, ISSN: 1359-7345
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  • Citations: 6
• Journal article
  Conifer CM, Law DJ, Sunley GJ, Haynes A, Wells JR, White AJP, Britovsek GJPet al., 2011,

  Dicarbonylrhodium(I) Complexes of Bipyridine Ligands with Proximate H-Bonding Substituents and Their Application in Methyl Acetate Carbonylation

  , European Journal of Inorganic Chemistry, Vol: 2011, Pages: 3511-3522, ISSN: 1099-0682
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• Journal article
  Karpiniec SS, McGuinness DS, Britovsek GJP, Davies NW, Patel Jet al., 2011,

  Evaluation of mid-to-late transition metal imine catalysts for acetylene oligomerisation: A high activity bis(imino)pyridine iron(II) catalyst

  , Catalysis Today, Vol: 178, Pages: 64 - 71-64 - 71, ISSN: 0920-5861
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