All Stories

  1. The contrarotational fluxionality of [3,3-(PMe2Ph)2-closo-3,1,2-PtC2B9H11] and related species

    Article • Dalton Transactions, January 2015, Royal Society of Chemistry

    Professor John D Kennedy

  2. Borane Polyhedra as Building Blocks for Unknown but Potentially Isolatable New Molecules – Extensions based on Computations of the Known B18H22 Isomers

    Article • Croatica Chemica Acta, January 2013, Croatian Chemical Society

    Professor John D Kennedy

  3. Nine-vertex metallaborane chemistry. Preparation and characterisation of [1,1,1-(PMe3)2H-isocloso-IrB8H7-8-X], where X = H or Cl

    Article • Journal of Organometallic Chemistry, December 2012, Elsevier

    Professor John D Kennedy, William Clegg

  4. A DFT and crystallographic reinvestigation of the [L2RuC2B7H9] and [L3RuC2B7H9] ‘hypercloso’ and closo systems

    Article • Polyhedron, August 2011, Elsevier

    Professor John D Kennedy

  5. Chemistry of 11-vertex rhodathiaboranes: reactions with monodentate phosphines

    Article • Dalton Transactions, January 2011, Royal Society of Chemistry

    Professor John D Kennedy

  6. Polymethylated [Fe(η6-arene)2]2+ dications: methyl-group rearrangements and application of the EINS mechanism

    Article • Dalton Transactions, January 2011, Royal Society of Chemistry

    Professor John D Kennedy

  7. ChemInform Abstract: Macropolyhedral Boron-Containing Cluster Chemistry [S2B16H17]-. A New Eighteen-Vertex Thiaborane Anion.

    Article • ChemInform, October 2010, Wiley

    Professor John D Kennedy

  8. The Effect of Interbond Angles at Tin Upon 119Sn Chemical Shifts in Organotin Alkane-α, ω-Dithiolates and Some Related Compounds

    Article • Bulletin des Sociétés Chimiques Belges, September 2010, Wiley

    Professor John D Kennedy

  9. ChemInform Abstract: Macropolyhedral Boron-Containing Cluster Chemistry: Isolation and Characterization of the First Macropolyhedral Thiaborane, the arachno- Type (9,9′-S2B17H18)- Ion.

    Article • ChemInform, August 2010, Wiley

    Professor John D Kennedy

  10. ChemInform Abstract: Macropolyhedral Boron-Containing Cluster Chemistry. Cluster Fusion to give the Novel nido-nido Eighteen-Vertex Dithiaoctadecaborane (anti)-( 9,9′-S2B16H16).

    Article • ChemInform, August 2010, Wiley

    Professor John D Kennedy

  11. ChemInform Abstract: Macropolyhedral Boron-Containing Cluster Chemistry - The Nineteen- Vertex Oxaborane Anion, (OB18H21)-.

    Article • ChemInform, August 2010, Wiley

    Professor John D Kennedy

  12. New Iridathiaboranes with Reversible Isonido ↔ Nido Cluster Flexibility

    Article • Inorganic Chemistry, August 2010, American Chemical Society (ACS)

    Professor John D Kennedy

  13. ChemInform Abstract: Macropolyhedral Boron-Containing Cluster Chemistry. Triple Cluster Fusion and the Molecular Structure of [(PMe3)2IrB26H24Ir(CO) (PMe3)2]. A 28-Vertex Metallaborane Cluster with a Polyboron Core.

    Article • ChemInform, June 2010, Wiley

    Professor John D Kennedy

  14. An Experimental Solution to the “Missing Hydrogens” Question Surrounding the Macropolyhedral 19-Vertex Boron Hydride Monoanion [B 19 H 22 ] − , a Simplification of Its Synthesis, and Its Use As an Intermediate in the First Example of syn -B 18 H 22 to...

    Article • Inorganic Chemistry, May 2010, American Chemical Society (ACS)

    Professor John D Kennedy

  15. Macropolyhedral boron-containing cluster chemistry [S2B16H17]–. A new eighteen-vertex thiaborane anion

    Article • Collection of Czechoslovak Chemical Communications, January 2010, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy, William Clegg

  16. Synthesis and characterization of dicarboranylmethylammonium polyoxometallates

    Article • Collection of Czechoslovak Chemical Communications, January 2010, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  17. ChemInform Abstract: Structural Paradigms in Macropolyhedral Boranes.

    Article • ChemInform, June 2008, Wiley

    Professor John D Kennedy

  18. ChemInform Abstract: Vibrational Spectrum and Electronic Structure of the [B11H11]2- Dianion.

    Article • ChemInform, January 2008, Wiley

    Professor John D Kennedy

  19. Borane reaction chemistry. Alkyne insertion reactions into boron-containing clusters. Products from the thermolysis of [6,9-(2-HCC–C5H4N)2-arachno-B10H12]

    Article • Dalton Transactions, January 2008, Royal Society of Chemistry

    Dr Anna Laromaine , Professor John D Kennedy, Dr Neil J Bullen

  20. Ten-vertex polyhedral azametallaborane chemistry: a unique nido-6,9 to nido-6,8-cluster isomerization

    Article • Dalton Transactions, January 2008, Royal Society of Chemistry

    Professor John D Kennedy

  21. Macropolyhedral boron-containing cluster chemistry. The reversible disassembly and reassembly of the hexagonal pyramidal {B7} feature in the [S2B18H19]− anion

    Article • Dalton Transactions, January 2008, Royal Society of Chemistry

    Professor John D Kennedy

  22. Metallaborane reaction chemistry. A predicted and found tailored facile and reversible capture of SO2 by a B-frame-supported bimetallic: structures of [(PMe2Ph)2PtPd(phen)B10H10] and [(PMe2Ph)2Pt(SO2)Pd(phen)B10H10]

    Article • Chemical Communications, January 2008, Royal Society of Chemistry

    Professor John D Kennedy

  23. Vibrational Spectrum and Electronic Structure of the [B11H11]2– Dianion

    Article • European Journal of Inorganic Chemistry, November 2007, Wiley

    Professor John D Kennedy

  24. Macropolyhedral boron-containing cluster chemistry: The reaction of syn-B18H22 with SMe2 and I2 in monoglyme: Structure of [7-(SMe2)-syn-B18H20]

    Article • Inorganic Chemistry Communications, February 2007, Elsevier

    Professor John D Kennedy

  25. Macropolyhedral boron-containing cluster chemistry. Novel intercluster linkages from the reaction of [Pt(cod)Cl2] and [PtMe2(PMe2Ph)2] with 6,6′-(B10H13)2O

    Article • Chemical Communications, January 2007, Royal Society of Chemistry

    Professor John D Kennedy

  26. Polyhedral metallaheteroborane chemistry. Synthesis, spectroscopy, structure and dynamics of eleven-vertex {RhNB9} and {PtCB9} metallaheteroboranes.

    Article • Dalton Transactions, January 2007, Royal Society of Chemistry

    Professor John D Kennedy

  27. Dimethylsulfide-dicarbaborane chemistry. Isolation and characterisation of isomers [9-(SMe2)-nido-7,8-C2B9H10-X-Me] (where X = 1, 2, 3 and 4) and some related compounds. An unusual skeletal rearrangement

    Article • Dalton Transactions, January 2007, Royal Society of Chemistry

    Professor John D Kennedy

  28. Macropolyhedral boron-containing cluster chemistry. The unique nido-five-vertex-〈B2〉-nido-ten-vertex conjuncto structure of [(η5-C5Me5)2Rh2B11H15] via an unexpected cluster-dismantling

    Article • Chemical Communications, January 2007, Royal Society of Chemistry

    Professor John D Kennedy, William Clegg

  29. Macropolyhedral boron-containing cluster chemistry. Synthesis of the nineteen vertex monocarbaborane [9-(terBuNH2)-(anti)-9-CB18H20] by direct carbon-atom Aufbau

    Article • Dalton Transactions, January 2007, Royal Society of Chemistry

    Professor John D Kennedy

  30. Macropolyhedral Boron-Containing Cluster Chemistry. Intermolecular Coordination via Hydrogen-Metal Interaction. The Solvent-Free Synthesis and Dimeric Constitution of [Pd2B36H40(PMe2Ph)4]

    Article • Collection of Czechoslovak Chemical Communications, January 2007, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  31. Polyhedral Dipalladaborane Chemistry. The Molecular Structure and Cluster Electron Count of [7,8-(PPh3)2-7,8-(μ-PPh2)-9,11-(OEt)2-nido-7,8-Pd2B9H8]

    Article • Collection of Czechoslovak Chemical Communications, January 2007, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  32. Polyhedral iridaborane chemistry: Elements of the 10-vertex closo–isonido–isocloso continuum

    Article • Inorganica Chimica Acta, August 2006, Elsevier

    Professor John D Kennedy, William Clegg

  33. Twelve-vertex polyhedral carbaborane chemistry. Isostructural cations and anions: The ‘globule–globule’ salt [H3NCH2C2B10H11][H3CCH2CB11H11]

    Article • Polyhedron, March 2006, Elsevier

    Professor John D Kennedy

  34. Macropolyhedral boron-containing cluster chemistry. Metallathiaboranes from S2B17H17: isolation and characterisation of [(η6-MeC6H4isoPr)RuS2B16H16<...

    Article • Dalton Transactions, January 2006, Royal Society of Chemistry

    Professor John D Kennedy

  35. Pentahapto-bonded gold heteroborane clusters [3-(R3P)-closo-2,1-AuTeB10H10]? and [3-(R3P)-closo-3,1,2-AuAs2B9H9]?

    Article • Dalton Transactions, January 2006, Royal Society of Chemistry

    Professor John D Kennedy

  36. Macropolyhedral boron-containing cluster chemistry. A synthetic approach via the auto-fusion of [6,9-(SMe2)2-arachno-B10H12]

    Article • Dalton Transactions, January 2006, Royal Society of Chemistry

    Professor John D Kennedy

  37. Polyhedral monocarbaborane chemistry. Some C-phenylated seven, eight, nine, ten, eleven and twelve-vertex species

    Article • Dalton Transactions, January 2006, Royal Society of Chemistry

    Professor John D Kennedy, William Clegg

  38. Macropolyhedral boron-containing cluster chemistry. Cluster opening and B-frame rearrangement in the reaction of B16H20with [{(IrCl2(η5-C5Me5)}2]. Synchrotron X-ray structures...

    Article • Dalton Transactions, January 2006, Royal Society of Chemistry

    Professor John D Kennedy, William Clegg

  39. Macropolyhedral boron-containing cluster chemistry. An unusual ‘neonido ’ ten-vertex subcluster configuration in a [(PPh3)2RuB16H20] species

    Article • Journal of Organometallic Chemistry, June 2005, Elsevier

    Professor John D Kennedy

  40. Macropolyhedral borane reaction chemistry: Reductive oligomerisation of terBuNC by anti-B18H22 to give the boron-coordinated {(terBuNHCH){terBuNHC(CN)}CH2:} carbene residue

    Article • Inorganic Chemistry Communications, May 2005, Elsevier

    Professor John D Kennedy

  41. Macropolyhedral boron-containing cluster chemistry

    Article • Inorganica Chimica Acta, March 2005, Elsevier

    Professor John D Kennedy

  42. Metallaborane reaction chemistry. Part 10. Phenylacetylene incorporation via [4,4-(PMe2Ph)2-arachno-4-PtCB8H12] in a ‘converse’ metalladicarbaborane synthesis of [7,7-(PMe2Ph)2-isonido-7,6,8-PtC2B6H7-6-Ph]

    Article • Inorganic Chemistry Communications, February 2005, Elsevier

    Dr Simon J Coles, Professor John D Kennedy

  43. Polyhedral ruthenaborane chemistry. Approaches to encapsulated boron cores. The isolation and characterisation of the partially encapsulated isocloso 10-vertex {RuB9} cluster compound [(PPh3)RuB9H9{RuCl2(PPh3)2}2]

    Article • Inorganic Chemistry Communications, February 2005, Elsevier

    Professor John D Kennedy

  44. Macropolyhedral boron-containing cluster chemistry. The reaction of B16H20and B14H18with [PtMe2(PMe2Ph)2] to give [(PMe2Ph)2PtB16H17

    Article • Dalton Transactions, January 2005, Royal Society of Chemistry

    Dr Simon J Coles, Professor John D Kennedy

  45. Macropolyhedral boron-containing cluster chemistry. Synchrotron X-ray structural analysis of [(PMe2Ph)2Pd2B16H20(PMe2Ph)2] and [(PMe2Ph)3Pt2B16H18(PMe2Ph)]: models of intermediates to more condensed metallaboranes from the [(PMe2Ph)2PtB8H12] thermolysi...

    Article • Chemical Communications, January 2005, Royal Society of Chemistry

    Professor John D Kennedy

  46. Diphosphacarborane analogues of ferrocene: The synthesis of two isomeric twelve-vertex closo-[(η5-C5H5)FeP2CB8H9] complexes

    Article • Dalton Transactions, January 2005, Royal Society of Chemistry

    Professor John D Kennedy

  47. Coordination and cluster compounds of ruthenium with the [hypho-1,2-S2B6H9]– ligand

    Article • Dalton Transactions, January 2005, Royal Society of Chemistry

    Professor John D Kennedy

  48. The capture of dioxygen, carbon monoxide and sulfur dioxide by [(PMe2Ph)4Pt2B10H10]

    Article • Dalton Transactions, January 2005, Royal Society of Chemistry

    Professor John D Kennedy

  49. Macropolyhedral Boron-Containing Cluster Chemistry. A Metallathiaborane from S2B17H17: Isolation and Characterisation of [(PMe2Ph)2PtS2B16H16]; A neo-arachno Ten-Vertex Cluster Shape, and the Constitution of the [arachno-B10H15]- Anion

    Article • Collection of Czechoslovak Chemical Communications, January 2005, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  50. Polyhedral Monocarbaborane Chemistry. Functionality and Isomerism: Reactions of the [6-Ph-nido-6-CB9H11]- Anion with Aminopyridines NC5H4NH2 to Yield Neutral arachno and closo Ten-Vertex Monocarbaborane Derivatives

    Article • Collection of Czechoslovak Chemical Communications, January 2005, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy, Dr Neil J Bullen

  51. Polyhedral Oxaruthenaborane Chemistry. Characterisation of a [(η6-C6Me6)RuOB9H13] Species of arachno Eleven-Vertex Cluster Character and Other Aspects of Oxaborane Chemistry

    Article • Collection of Czechoslovak Chemical Communications, January 2005, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  52. Macropolyhedral Boron-Containing Cluster Chemistry: Pointers Towards the Mechanism of Homofusions of Nine-Vertex Arachno Metallaboranes

    Article • ChemInform, December 2004, Wiley

    Professor John D Kennedy

  53. Macropolyhedral boron-containing cluster chemistry: two-electron variations in intercluster bonding intimacy. Contrasting structures of 19-vertex [(η5-C5Me5)HIrB18H19(PHPh2)] and [(η5-C5Me5)IrB18H18(PH2Ph)]

    Article • Inorganica Chimica Acta, July 2004, Elsevier

    Professor John D Kennedy

  54. Monocarbaborane anion chemistry. {COOH}, {CH2OH} and {CHO} units as functional groups on ten-vertex monocarbaborane anionic compounds

    Article • Dalton Transactions, January 2004, Royal Society of Chemistry

    Professor John D Kennedy, William Clegg

  55. Polyhedral monocarbaborane chemistry. Carboxylic acid derivatives of the [closo-2-CB9H10]? anion

    Article • Chemical Communications, January 2004, Royal Society of Chemistry

    Professor John D Kennedy

  56. Metallaborane reaction chemistry. A facile and reversible dioxygen capture by a B-frame-supported bimetallic: structure of [(PMe2Ph)4(O2)Pt2B10H10]

    Article • Chemical Communications, January 2004, Royal Society of Chemistry

    Professor John D Kennedy

  57. Macropolyhedral boron-containing cluster chemistry. Ligand-induced two-electron variations of intercluster bonding intimacy. Structures of nineteen-vertex [(η5-C5Me5)HIrB18H19(PMe2Ph)] a...

    Article • Dalton Transactions, January 2004, Royal Society of Chemistry

    Professor John D Kennedy

  58. Macropolyhedral boron-containing cluster chemistry. Cluster assembly about a molybdenum centre. Formation of the 19-vertex [(CO)2MoB16H15C2Ph2]? anion

    Article • Dalton Transactions, January 2004, Royal Society of Chemistry

    Professor John D Kennedy

  59. Ten-vertex osmamonocarbaboranes via arachno and nido {CB9} monocarbaboranes. Polyhedral contraction promoted by [OsCl2(PPh3)3] in MeOH and the crystal and molecular structure of [1-H-1,1-(PPh3)2-2-Ph-3-(OMe)-isocloso-1,2-OsCB8H7]

    Article • Inorganic Chemistry Communications, December 2003, Elsevier

    Professor John D Kennedy

  60. Macropolyhedral boron-containing cluster chemistry. Aspects of the S2B16H16 system. Preparation, structure, NMR spectroscopy and isomerism

    Article • Journal of Organometallic Chemistry, August 2003, Elsevier

    Professor John D Kennedy

  61. Polyhedral monocarbaborane chemistry. Routes to neutral, monoanionic and dianionic carbo-carbaborane rods

    Article • Chemical Communications, January 2003, Royal Society of Chemistry

    Professor John D Kennedy, Dr Neil J Bullen

  62. Azacarbaborane chemistry. Butyl nitrite synthesis of the new eight-, nine- and ten-vertex azacarbaboranes exo- and endo-7-CH3-hypho-7,8-NCB6H11, nido-6,8,9-NC2B7H10, arachno-6,5,9-NC2B7H12 and arachno-6,5,10-C2NB7H12

    Article • Dalton Transactions, January 2003, Royal Society of Chemistry

    Professor John D Kennedy

  63. Metallaheteroborane chemistry: Part 16. Contrasting metal to heteroborane bonding modes in isoelectronic {MC2B9} and {MAs2B9} clusters. Synthesis and characterisation of [9-{Fe(CO)2(η5-C...

    Article • Dalton Transactions, January 2003, Royal Society of Chemistry

    Professor John D Kennedy

  64. Macropolyhedral boron-containing cluster chemistry

    Article • Journal of Organometallic Chemistry, September 2002, Elsevier

    Professor John D Kennedy

  65. Macropolyhedral thiaboranes with unusual arachno subclusters—a computational investigation

    Article • Journal of Organometallic Chemistry, September 2002, Elsevier

    Professor John D Kennedy

  66. Macropolyhedral boron-containing cluster chemistry

    Article • Journal of Organometallic Chemistry, September 2002, Elsevier

    Professor John D Kennedy, William Clegg

  67. Monocarbaborane anion chemistry. An interesting encapsulation of the Pd2I2{P(C6H4-4-Me)3}4]2+ cation by a pair of [PhCB9H4I(C6H4Me)4]??? anions

    Article • Chemical Communications, August 2002, Royal Society of Chemistry

    Professor John D Kennedy

  68. Preparation and Characterization of Macropolyhedral Metallaborane Clusters from the anti -B 18 H 22 Borane Cluster:  Crystal Structure of [(CH 3 ) 4 N][ a nti- B 18 H 20 Co(CO) 3 ]

    Article • Organometallics, July 2002, American Chemical Society (ACS)

    Professor John D Kennedy

  69. Monocarbaborane anion chemistry. The substantiation of the C-arylated [PhCB6H6]– seven-vertex closo cluster anion by single-crystal synchrotron X-ray diffraction analysis

    Article • Journal of the Chemical Society Dalton Transactions, June 2002, Royal Society of Chemistry

    Professor John D Kennedy

  70. Polyhedral Monocarbaborane Chemistry. A Review of Recent Developments Among C-Aryl Monocarbaborane Systems

    Article • Collection of Czechoslovak Chemical Communications, January 2002, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  71. Monocarbaborane Anion Chemistry. Syntheses and Structures Within the closo Nine-Vertex System

    Article • Collection of Czechoslovak Chemical Communications, January 2002, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  72. Monocarbaborane chemistry. Preparation and characterisation of [4-CB8H9]–, the ‘missing’ closo-carbaborane anion

    Article • Chemical Communications, January 2001, Royal Society of Chemistry

    Professor John D Kennedy

  73. Monocarbaborane anion chemistry. The elusive C-arylated [PhCB11H11]–, [PhCB9H9]– and [PhCB8H8]– anions

    Article • Chemical Communications, January 2001, Royal Society of Chemistry

    Professor John D Kennedy

  74. Triple linking of the decaboranyl cluster. Structure of [(SMe2)2B10H10(B10H13)2] as determined by synchrotron X-ray diffraction analysis

    Article • Chemical Communications, January 2001, Royal Society of Chemistry

    Professor John D Kennedy

  75. Macropolyhedral boron-containing cluster chemistry. Further progress beyond the icosahedron. July 1999

    Article • May 2000, Royal Society of Chemistry

    Professor John D Kennedy

  76. Macropolyhedral boron-containing cluster chemistry. Isolation and structure of the twenty-one-vertex globular cluster compound [(η5-C5Me5)3Ir3B18H15(OH)]

    Article • Inorganic Chemistry Communications, April 2000, Elsevier

    Professor John D Kennedy

  77. Macropolyhedral boron-containing cluster chemistry. The [SB17H19]− anion: a nido-ten-vertex : arachno-ten-vertex cluster architecture and the first single-sulfur macropolyhedral thiaborane

    Article • Chemical Communications, January 1999, Royal Society of Chemistry

    Professor John D Kennedy

  78. Isolation and Structure of [(PPh3)3(PPh2)2Pd4B20H16]. A Possible Prognostic for New Globular Borane-Based Cluster Architectures

    Article • Collection of Czechoslovak Chemical Communications, January 1999, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  79. Metallaborane Reaction Chemistry. Part 7. B-Frame Supported Bimetallics: Ligand-to-β-Metal Organometallic Interaction in Dimetallaboranes and an Interesting Ligand Displacement Cascade

    Article • Collection of Czechoslovak Chemical Communications, January 1999, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  80. NMR Assignments of [6-R-nido-5,6-C2B8H10]- Anions (where R = H, Me, and n-C6H13). An Irreversible 5 → 6 Alkyl Migration via a B9 Vertex-Swing Mechanism

    Article • Collection of Czechoslovak Chemical Communications, January 1999, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  81. Polyhedral Azaplatinaborane Chemistry. Reaction of Members of the hypho-Type Family R'H2NB8H11NHR with [PtCl2(PMe2Ph)2] and [PtCl2(PPh3)2]. Formation of Members of the Family of Open Seven-Boron Species [3,3-(PMe2Ph)2-3-PtB7H10-μ-5,6-(NHR)]

    Article • Collection of Czechoslovak Chemical Communications, January 1999, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  82. Macropolyhedral boron-containing cluster chemistry. Isolation and characterisation of the 27-vertex contiguous triple-cluster species [(PMe2Ph)PtB26H26(PMe2Ph)]

    Article • Inorganic Chemistry Communications, October 1998, Elsevier

    Professor John D Kennedy

  83. Polyhedral ruthenaborane chemistry. The ten-vertex isocloso cluster geometries of [(pcym)RuB9H9] and [(pcym)2Ru2B8H8]

    Article • Inorganic Chemistry Communications, October 1998, Elsevier

    Professor John D Kennedy

  84. Macropolyhedral boron-containing cluster chemistry. An interesting angular change in relative subcluster orientation in the oxidative protonation of [S2B17H18]− to [S2B17H17]

    Article • Inorganic Chemistry Communications, May 1998, Elsevier

    Professor John D Kennedy

  85. Macropolyhedral boron-containing cluster chemistry. [PtMe2(PMe2Ph)2] as a cluster metallating agent. Isolation and characterisation of nineteen-vertex [(PMe2Ph)HPt-η4-syn-B18H19(PMe2Ph)] and eighteen-vertex [(PMe2Ph)2PtS2B15H14(NHCOMe]

    Article • Journal of Organometallic Chemistry, April 1998, Elsevier

    Professor John D Kennedy

  86. Metallaborane reaction chemistry. Macropolyhedral metallaheteroborane synthesis by direct heteroatom insertion. Formation of the twenty-vertex [(η5-C5Me5)IrB18H19S]− anion from nineteen-vertex syn-[(η5-C5Me5)IrB18H20]

    Article • Inorganic Chemistry Communications, March 1998, Elsevier

    Professor John D Kennedy

  87. Macropolyhedral boron-containing cluster chemistry. The [S2B18H19]− anion, and the reversible dismantling and regeneration of an apical boron cluster site with cluster connectivity six

    Article • Journal of the Chemical Society Dalton Transactions, January 1998, Royal Society of Chemistry

    Professor John D Kennedy

  88. Polyhedral azaborane chemistry. Nitrogen-vertex incorporation in metallaazaborane formation from 4-(NHEt2)B9H13. Two isomers of [(η5-C5Me5)RhB9H12(NEt2)]

    Article • Journal of the Chemical Society Dalton Transactions, January 1998, Royal Society of Chemistry

    Professor John D Kennedy

  89. Macropolyhedral boron-containing cluster chemistry. Mixed and multiple cluster fusion in platinaborane chemistry and the structure of [(PMe2Ph)2PtB16H17PtB10H11(PMe2Ph)] as determined by synchrotron X-ray diffraction analysis

    Article • Journal of the Chemical Society Dalton Transactions, January 1998, Royal Society of Chemistry

    Professor John D Kennedy

  90. Theisonido-Metalladicarbaborane [1,1,1-H{P(CH3)3}2-6-Cl-1,2,4-IrC2B8H9]

    Article • Acta Crystallographica Section C Crystal Structure Communications, April 1997, International Union of Crystallography

    Professor John D Kennedy

  91. Macropolyhedral boron-containing cluster chemistry. Assessment of the possibilities of thermolytic mixed-cluster fusion, and of the use of synchrotron X-radiation for the examination of small single crystals of metallaboranes. Isolation and structure o...

    Article • Journal of the Chemical Society Dalton Transactions, January 1997, Royal Society of Chemistry

    Professor John D Kennedy

  92. Polyhedral azadirhodaborane chemistry. Reaction of [{RhCl2(η5-C5Me5) }2] with [EtH2NB8H11NHEt] to give contiguous ten-vertex [1-Et-6,7-(η5-C5Me5)2- closo-6,7,1-Rh2NB7H7 ]

    Article • Journal of the Chemical Society Dalton Transactions, January 1997, Royal Society of Chemistry

    Professor John D Kennedy

  93. Polyhedral azaborane chemistry. The establishment of members of the hypho-type family [(RH2N)B8H11NHR], where groups R are now other than ethyl

    Article • Journal of the Chemical Society Dalton Transactions, January 1997, Royal Society of Chemistry

    Professor John D Kennedy

  94. exo,endo and exo,exo isomers of 6,9-(PMe2Ph)2-arachno-B10H12 and its halogenated derivatives. Molecular structures of exo,endo- and exo,exo-6,9-(PMe2Ph)2-arachno-B10H12 and exo-6,endo-9-(PMe2Ph)2-2-Br-arachno-B10H11

    Article • Journal of the Chemical Society Dalton Transactions, January 1997, Royal Society of Chemistry

    Professor John D Kennedy

  95. Macropolyhedral boron-containing cluster chemistry. Characterisation of rigid 77-atom [Pt(B18H20)2]2− dianion isomers and an unusual metallaborane homophilic interaction

    Article • Journal of the Chemical Society Dalton Transactions, January 1997, Royal Society of Chemistry

    Professor John D Kennedy

  96. Macropolyhedral boron-containing cluster chemistry. Triple cluster fusion and the molecular structure of [(PMe3)2IrB26H24Ir(CO)(PMe3)2]. A 28-vertex metallaborane cluster with a polyboron core†

    Article • Chemical Communications, January 1997, Royal Society of Chemistry

    Professor John D Kennedy

  97. Macropolyhedral boron-containing cluster chemistry: isolation and characterization of twenty-one-vertex [(PMe2Ph)3HReB20H15Ph(PHMe 2)]

    Article • Chemical Communications, January 1997, Royal Society of Chemistry

    Professor John D Kennedy

  98. Effects of metal-centre orbital control on cluster character and electron distribution between borane and hydrocarbon ligands; significance of the structures of [μ-9,10-(SMe)-8,8-(PPh3)2-nido-8,7-IrSB 9H9] and [μ-9,10-(SMe)-8-(η4-C5Me5H)- nido-8,7-RhSB...

    Article • Journal of the Chemical Society Dalton Transactions, January 1997, Royal Society of Chemistry

    Professor John D Kennedy

  99. Ten-vertex monocarbaborane chemistry. Synthesis of carbon-substituted ligand derivatives 1-L-closo-1-CB9H9 and crystal and molecular structure of 1-(Me3N)-closo-1-CB9H9

    Article • Journal of the Chemical Society Dalton Transactions, January 1997, Royal Society of Chemistry

    Professor John D Kennedy

  100. Metallaborane Reaction Chemistry. Part 4. Polyhedral Thiametallaborane Synthesis via Direct Incorporation of Sulfur Into Metallaboranes

    Article • Collection of Czechoslovak Chemical Communications, January 1997, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  101. A Return to the Plesek Reaction and Some Useful Variations. Carbon-Substituted Methyl and Phenyl Derivatives of 5,6-Dicarba-nido-decaborane(12), nido-5,6-C2B8H12

    Article • Collection of Czechoslovak Chemical Communications, January 1997, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  102. Metallaborane Reaction Chemistry. Part 3. Reaction of Carbon Monoxide with [6-H-6-(PPh3)-6P,5C-μ-(2-Ph2PC6H4)-nido-6-IrB9H12] and the Isolation and Characterisation of Two arachno-6-Monoiridadecaboranes [6-(CO)-6-H-6,9-(PPh3)2-6P,5C-μ-(2-Ph2PC6H4)-arac...

    Article • Collection of Czechoslovak Chemical Communications, January 1997, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  103. Conformational polymorphism and fluxional behaviour of M(PR3)2units in closo-twelve-atom metallaheteroboranes with MX2B9(X = C or As) and MZB10cages (Z = S, Se or Te)

    Article • Journal of the Chemical Society Dalton Transactions, January 1996, Royal Society of Chemistry

    Professor John D Kennedy

  104. Macropolyhedral boron-containing cluster chemistry. syn- and anti-[(C5Me5)2Rh2S2B15H14(OH)]; an interesting nineteen-vertex isomeric pair

    Article • Journal of the Chemical Society Dalton Transactions, January 1996, Royal Society of Chemistry

    Professor John D Kennedy

  105. Macropolyhedral boron-containing cluster chemistry. Isolation and characterisation of the eighteen-vertex nido-5′-iridaoctaborano[3′,8′ : 1′,2]-closo-4-iridadodecaborane, [(CO)(PMe3)2IrB16H14Ir(CO)(PMe3<...

    Article • Journal of the Chemical Society Dalton Transactions, January 1996, Royal Society of Chemistry

    Professor John D Kennedy

  106. Macropolyhedral boron-containing cluster chemistry: nineteen-vertex [(PPh3)NiS2B16H12(PPh3)] and eighteen-vertex S2B16H14(PPh3)

    Article • Journal of the Chemical Society Dalton Transactions, January 1996, Royal Society of Chemistry

    Professor John D Kennedy

  107. An air-stable, cationic metallacarborane without a charge-compensated carborane ligand

    Article • Chemical Communications, January 1996, Royal Society of Chemistry

    Professor John D Kennedy

  108. Macropolyhedral boron-containing cluster chemistry. Nineteen-vertex [S2B17H17(SMe2)]. An unusual apical boron atom of cluster connectivity six that introduces a new polyhedral borane building block

    Article • Chemical Communications, January 1996, Royal Society of Chemistry

    Professor John D Kennedy

  109. Macropolyhedral boron-containing cluster chemistry. An X-ray diffraction and nuclear magnetic resonance study of the double cluster 11-vertex: 11-vertex tetracarbaborane C4B18H22

    Article • Journal of the Chemical Society Dalton Transactions, January 1996, Royal Society of Chemistry

    Professor John D Kennedy

  110. Ten-vertex polyhedral monoheteroborane chemistry: syntheses, molecular structures, and nuclear magnetic resonance characterization of some 9-substituted 6-aza- and 6-thia-arachno-decaboranes

    Article • Journal of the Chemical Society Dalton Transactions, January 1996, Royal Society of Chemistry

    Professor John D Kennedy

  111. Reactions of carbon disulfide with open nido-6-iridadecaboranes. The formation of closed ten-vertex cluster compounds with boron-to-metal dithioformate bridges and a novel isocloso→closo cluster conversion

    Article • Journal of the Chemical Society Dalton Transactions, January 1996, Royal Society of Chemistry

    Professor John D Kennedy

  112. Polyhedral Azaborane Chemistry: NMR Parameters for the Unique Eight-Boron Polyhedral Species [(C2H5NH2)B8H11NHC2H5]

    Article • Collection of Czechoslovak Chemical Communications, January 1996, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  113. Macropolyhedral boron-containing cluster chemistry—the nineteen-vertex oxaborane anion, [OB18H21]–

    Article • Journal of the Chemical Society Chemical Communications, January 1995, Royal Society of Chemistry

    Professor John D Kennedy

  114. Macropolyhedral boron-containing cluster chemistry. The eighteen-vertex monocarbaborane [(Me3CNH2)CB17H18(CN)]

    Article • Journal of the Chemical Society Chemical Communications, January 1995, Royal Society of Chemistry

    Professor John D Kennedy

  115. Eight-vertex polyhedral monocarbaborane chemistry. Three closo anions, [CB7H8]–, [CB7H7I]–and [CB7H6I2]–. Preparation and structural studies

    Article • Journal of the Chemical Society Dalton Transactions, January 1995, Royal Society of Chemistry

    Professor John D Kennedy

  116. Macropolyhedral Boron-Containing Cluster Chemistry: Isolation and Characterization of the First Macropolyhedral Thiaborane, thearachno-Type[9,9′-S2B17H18]− Ion

    Article • Angewandte Chemie International Edition in English, September 1994, Wiley

    Professor John D Kennedy

  117. Chemie makropolyedrischer Borcluster: Isolierung und Charakterisierung des ersten makropolyedrischen Thiaborans, des Anions [9,9′-S2B17H18]− vomarachno-Typ

    Article • Angewandte Chemie, August 1994, Wiley

    Professor John D Kennedy

  118. Polyhedral carbathiaborane chemistry. Ten-vertex nido and arachno, eleven-vertex nido, and eight-vertex hypho families of carbathiaboranes

    Article • Journal of the Chemical Society Dalton Transactions, January 1994, Royal Society of Chemistry

    Professor John D Kennedy

  119. Novel phosphonium-betaine ligands [SC(H)PPh3-C,S]–and [S(H)CC(PPh3)S-S,S′]–stabilised in rhodacarborane complexes

    Article • Journal of the Chemical Society Chemical Communications, January 1994, Royal Society of Chemistry

    Professor John D Kennedy

  120. Macropolyhedral boron-containing cluster chemistry. Cluster fusion to give the novel nido–nido eighteen-vertex dithiaoctadecaborane (anti)-[9,9′-S2B16H16]

    Article • Journal of the Chemical Society Chemical Communications, January 1994, Royal Society of Chemistry

    Professor John D Kennedy

  121. Macropolyhedral boron-containing cluster chemistry. A reductive trimerisation of MeNC to give an imidazole-based carbene stabilized by coordination to boron in an eighteen-vertex cluster compound

    Article • Journal of the Chemical Society Chemical Communications, January 1994, Royal Society of Chemistry

    Professor John D Kennedy

  122. Eleven- and twelve-vertex polyhedral metalladithiaborane chemistry. Novel compounds from the arachno-[S2B9H10]–anion: [(PPh3)3H2IrS2B9H10], [(...

    Article • Journal of the Chemical Society Chemical Communications, January 1994, Royal Society of Chemistry

    Professor John D Kennedy

  123. Nine-vertex polyhedral iridamonocarbaborane chemistry. Products of thermolysis of [(CO)(PPh3)2IrCB7H8] and emerging alternative cluster-geometry patterns

    Article • Journal of the Chemical Society Dalton Transactions, January 1994, Royal Society of Chemistry

    Professor John D Kennedy

  124. Synthesis and crystal structure of [Pd(PPh3)S2B6H8]2: a dimeric metallaheteroborane with heteroatoms acting both as cluster atoms and two-electron donor sites

    Article • Journal of the Chemical Society Chemical Communications, January 1994, Royal Society of Chemistry

    Professor John D Kennedy

  125. Macropolyhedral boron-containing cluster chemistry. The isolation and characterisation of the eighteen-vertex azaborane anti-[9-NB17H20]

    Article • Journal of the Chemical Society Chemical Communications, January 1994, Royal Society of Chemistry

    Professor John D Kennedy

  126. Nine-Vertex Polyhedral Monoazaborane Chemistry: Synthesis and NMR Characterization of exo-6-Ligand-arachno-4-azanonaboranes(11), 6-L-4-NB8H11

    Article • Collection of Czechoslovak Chemical Communications, January 1994, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  127. Nine-Vertex Polyhedral Monothiaborane Chemistry. The First nido Thianonaborane: Isolation and Characterization by NMR of the [nido-9-SB8H9]- Anion, and its Conversion to Compounds of the 6-L-arachno-4-SB8H10 Series (where L = SMe2 and Pyridine)

    Article • Collection of Czechoslovak Chemical Communications, January 1994, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  128. Nine- and Eight-Vertex Polyhedral Dicarbaborane Chemistry: New arachno and hypho Dicarbaboranes from arachno-4,5-C2B7H13: Isolation and Characterization of the [arachno-4,5-C2B7H12]- and [hypho-7,8-C2B6H13]- Anions, and of the Neutral Ligand Derivative...

    Article • Collection of Czechoslovak Chemical Communications, January 1994, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  129. Nine-vertex polyhedral monocarbaplatinaborane chemistry. Isolation, molecular structure and nuclear magnetic resonance properties of [6,6-(PPh3)2-arachno-6,4-PtCB7H11]

    Article • Journal of the Chemical Society Dalton Transactions, January 1993, Royal Society of Chemistry

    Professor John D Kennedy

  130. Eleven-vertex polyhedral stannadicarbaborane chemistry. ‘naked tin’{closo-1,2,3-SnC2B8}-cluster compounds

    Article • Journal of the Chemical Society Dalton Transactions, January 1993, Royal Society of Chemistry

    Professor John D Kennedy

  131. Letters

    Article • Journal of the Chemical Society Dalton Transactions, January 1993, Royal Society of Chemistry

    Professor John D Kennedy

  132. Additions and corrections

    Article • Journal of the Chemical Society Dalton Transactions, January 1993, Royal Society of Chemistry

    Professor John D Kennedy

  133. An alternative route to cationic metallaheteroboranes

    Article • Journal of the Chemical Society Dalton Transactions, January 1993, Royal Society of Chemistry

    Professor John D Kennedy

  134. Metallaheteroborane chemistry. Part 12. Synthesis of cationic metallaheteroboranes [2-L-2-(PPh3)-closo-2,1-PdTeB10H9(PPh3)][BF4]; molecular structures of the compounds with L = H2O or CO

    Article • Journal of the Chemical Society Dalton Transactions, January 1993, Royal Society of Chemistry

    Professor John D Kennedy

  135. Metallaborane reaction chemistry. Part 1. Two interesting closed cluster compounds from the reaction of acetylene with an open nido-6-iridadecaborane

    Article • Journal of the Chemical Society Dalton Transactions, January 1993, Royal Society of Chemistry

    Professor John D Kennedy

  136. Metallaheteroborane chemistry. Part 11. Selective syntheses of the palladium heteroborane complexes [2,2-(PR3)2-closo-2,1-PdEB10H10](R3= Ph3, MePh2 or Me2Ph; E = Se or Te) and [2-X-2-(PPh3)-closo-2,1-PdTeB10H9(PPh3)](X = Cl, Br, I, CN, SCN or O2CMe)

    Article • Journal of the Chemical Society Dalton Transactions, January 1993, Royal Society of Chemistry

    Professor John D Kennedy

  137. Eleven-vertex polyhedral monocarbaplatinaborane chemistry. Structure and fluxionality of [8,8-(PMe2Ph)2-nido-8,7-PtCB9H11]

    Article • Journal of the Chemical Society Dalton Transactions, January 1993, Royal Society of Chemistry

    Professor John D Kennedy

  138. The first cluster azathiaboranes: isolation and characterisation of eight-vertex hypho-7,8-NSB6H11and ten-vertex arachno-6,9-NSB8H11

    Article • Journal of the Chemical Society Chemical Communications, January 1993, Royal Society of Chemistry

    Professor John D Kennedy

  139. Eleven-Vertex Polyhedral Dicarbaplatinaborane Chemistry. Aspects of the Chemistry of Some closo-Structured {1,2,3-PtC2B8} Species and Some Related Compounds

    Article • Collection of Czechoslovak Chemical Communications, January 1993, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  140. Ten-Vertex Polyhedral Monocarbaborane Chemistry. The Novel High-Yield Formation of the Ten-Vertex closo Compound [6-(PMe2Ph)-closo-1-CB9H9] from the Thermolysis of [8,8-(PMe2Ph)2-nido-8,7-PtCB9H11]

    Article • Collection of Czechoslovak Chemical Communications, January 1993, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  141. Ten-Vertex Polyhedral Rhodadicarbaborane Chemistry. Molecular Structure, NMR Properties, and Cluster Dynamic Behaviour of [2,2,2-(PPh3)2H-closo-2,1,6-RhC2B7H9]

    Article • Collection of Czechoslovak Chemical Communications, January 1993, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  142. Organoruthenaborane Chemistry. X. The SM2-catalysed formation of [ l-(?6-C6Me6)-isocloso-RuB9H9], and some B-phenylamino derivatives. NMR and X-ray diffraction studies

    Article • Zeitschrift für anorganische und allgemeine Chemie, October 1992, Wiley

    Professor John D Kennedy

  143. Metallaheteroborane chemistry. Part 10. Synthesis and characterisation of closo-structured rhodathiaborane complexes [1-(CO)-1-L-3-L′-1,2-RhSB9H8](L = L′= PPh3; L = PMe2Ph, L′= PMe2Ph or PPh3<...

    Article • Journal of the Chemical Society Dalton Transactions, January 1992, Royal Society of Chemistry

    Professor John D Kennedy

  144. Ten-vertex metallaborane chemistry. Aspects of the iridadecaborane closo→isonido→isocloso structural continuum

    Article • Journal of the Chemical Society Dalton Transactions, January 1992, Royal Society of Chemistry

    Professor John D Kennedy

  145. Polyhedral Iridamonocarbaborane Chemistry. The Isolation and Characterisation of the Nine-Vertex closo-Type Species [(CO)(PPh3)2IrCB7H8] and the Partially Open Structures of Formally closo Nine-Vertex Clusters

    Article • Collection of Czechoslovak Chemical Communications, January 1992, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  146. Ten-Vertex Monocarbaborane Chemistry. A Convenient New Preparation of the [closo-1-CB9H10]- Anion and the Crystal and Molecular Structure of [(η5-C5Me5)2Ir2Cl3]+ [closo-1-CB9H10]-

    Article • Collection of Czechoslovak Chemical Communications, January 1992, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  147. Additions and corrections

    Article • Journal of the Chemical Society Dalton Transactions, January 1991, Royal Society of Chemistry

    Professor John D Kennedy

  148. Metallaheteroborane chemistry. Part 9. Syntheses and spectroscopy of platinum and palladium phosphine complexes containing η5-{As2B9}-based cluster ligands. Crystal structures of [3,3-L2-closo-3,1,2-PtAs...

    Article • Journal of the Chemical Society Dalton Transactions, January 1991, Royal Society of Chemistry

    Professor John D Kennedy

  149. Polyhedral iridathiaborane chemistry. Reactions of nido-6-SB9H11and of [arachno-6-SB9H12]–with [{Ir(η5-C5Me5)Cl2}2] to give nido-8,7-iridathia...

    Article • Journal of the Chemical Society Dalton Transactions, January 1991, Royal Society of Chemistry

    Professor John D Kennedy

  150. Polyhedral osmaborane chemistry: the platination of [4,4,4-(CO)(PPh3)2-nido-4-OsB5H9] and the isolation, nuclear magnetic resonance properties, and molecular structures of two seven-vertex nido-type dimetallaheptaboranes [(CO)(PPh3)2HOs(PMe2Ph)ClPtB5H7...

    Article • Journal of the Chemical Society Dalton Transactions, January 1991, Royal Society of Chemistry

    Professor John D Kennedy

  151. Two new ten-vertex arachno mixed-atom diheteroboranes, 6,9-CNB8H13and 6,9-CSB8H12

    Article • Journal of the Chemical Society Chemical Communications, January 1991, Royal Society of Chemistry

    Professor John D Kennedy

  152. Polyhedral platinadicarbaborane chemistry. The molecular structure and some NMR properties of [9,9-(PPh3)2-arachno-9,5,6-PtC2B7H11]

    Article • Collection of Czechoslovak Chemical Communications, January 1991, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  153. Selective dismantling of closo-1,2-C2B10H12 to lower-cage dicarbaborane systems

    Article • Collection of Czechoslovak Chemical Communications, January 1991, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  154. Polyhedral organoiridaazaborane chemistry. The preparation of the eleven-vertex nido compound [9-Cl-8-(η5-C5Me5)-nido-8,7-IrNHB9H10] and its characterization by single-crystal X-ray diffraction analysis and nuclear magnetic resonance spectroscopy

    Article • Collection of Czechoslovak Chemical Communications, January 1991, Institute of Organic Chemistry & Biochemistry

    Professor John D Kennedy

  155. Ten-vertex metallaborane chemistry. Structure of 3-(OC2H5)-4,9-(PPh3)2-7,7-Cl(Ph2P-ortho-C6H4)-isonido-7-IrB9H5-10-.CH2Cl2

    Article • Acta Crystallographica Section C Crystal Structure Communications, June 1990, International Union of Crystallography

    Professor John D Kennedy

  156. Polyhedral metallaphosphaborane chemistry: the preparation, molecular structure, and nuclear magnetic resonance study of [2-Ph-1,1-(PMe2Ph)2-closo-1,2-PtPB10H10], and some related chemistry

    Article • Journal of the Chemical Society Dalton Transactions, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  157. Metallaheteroborane chemistry. Part 6. Synthesis of closo-[2-(η-ligand)-1,2-TeMB10H10] complexes with M(η-ligand)= Rh(η5-C5Me5)(1), Ru(η6-p- MeC6H4Pri...

    Article • Journal of the Chemical Society Dalton Transactions, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  158. Arachno-6,9-diazadecaborane(12), [6,9-N2B8H12], an unsubstituted contiguous cluster diazaborane

    Article • Journal of the Chemical Society Chemical Communications, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  159. Polyhedral metallacarbaborane chemistry: preparation, molecular structure, and nuclear magnetic resonance investigation of [3-(η5-C5Me5)-closo-3,1,2-MC2B9H11] (M = Rh or Ir)

    Article • Journal of the Chemical Society Dalton Transactions, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  160. An unusual direct conversion of metallaboranes to metallacarbaboranes and the isolation of a novel isoarachno twelve-vertex cluster compound

    Article • Journal of the Chemical Society Chemical Communications, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  161. Organoruthenaborane chemistry. Part 7. Preparation, molecular structure, and nuclear magnetic resonance properties of eleven-vertex closo-type clusters: [2,4-Me2-1 -(pcym)-1,2,4-RuC2B8H8], [2,3-Me2-1 -(pcym)-1,2,3-RuC2B8H8], [1-(pcym)-1-RuB10H10] and s...

    Article • Journal of the Chemical Society Dalton Transactions, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  162. Ten-vertex metallaborane chemistry: facile, thermally induced, nido→isocloso cluster-closure oxidation reactions in iridadecaborane clusters

    Article • Journal of the Chemical Society Dalton Transactions, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  163. Polyhedral iridamonocarbaborane chemistry. Two ten-vertex arachno-6,9-iridacarbadecaboranes and some related ten-vertex carbaborane chemistry. Comparative nuclear magnetic resonance studies and the molecular structure of [asym-9-(CO)-9,9-(PPh3

    Article • Journal of the Chemical Society Dalton Transactions, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  164. Ten-vertex metallaborane chemistry: synthesis and characterization of some ortho-cycloboronated nido-5- and -6-iridadecaboranes; crystal structures of [5-H-5-(PPh3)-5-(PPh2-o-C6H4)-nido-5-IrB9H12-2] and [5-H-5,7-(PPh3)2-5-(PPh2-o-C6H4)-nido-5-IrB9H12-2]]

    Article • Journal of the Chemical Society Dalton Transactions, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  165. Novel rhodathiaborane complexes derived from [(PPh3)2RhSB9H10]

    Article • Journal of the Chemical Society Chemical Communications, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  166. Oxarhodaborane chemistry: the formation of [µ-9,9′-O-{5-(η5-C5Me5)-nido-5-RhB9H12}2] and [7-(η5-C5Me5)-10-(NEt3)-nido-7, 12-RhOB10H...

    Article • Journal of the Chemical Society Chemical Communications, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  167. Metallaheteroborane chemistry. Part 7. Synthesis, crystal structure, and characterisation of two dinuclear rhodatelluraboranes, [{(PPh3)2RhTeB10H10}2] and [(PPh3)(CO)Rh2Te2B20H20]

    Article • Journal of the Chemical Society Dalton Transactions, January 1990, Royal Society of Chemistry

    Professor John D Kennedy

  168. Novel bonding mode and reaction of a phosphonium-betaine ligand S2C(H)(PPh3). Synthesis of the [Rh(XB10H10){S2C(H)(PPh3)}]2 dimers (X = Se, Te) and X-ray diffraction study of the te-compound

    Article • Journal of the Chemical Society Chemical Communications, January 1989, Royal Society of Chemistry

    Professor John D Kennedy

  169. Additions and corrections

    Article • Journal of the Chemical Society Dalton Transactions, January 1989, Royal Society of Chemistry

    Professor John D Kennedy

  170. Stepwise reduction of MeNC to Me2NH on a metallaborane substrate: an interesting reaction sequence and the molecular structure of [µ-6,9-(NMe2)-10-(PMe2Ph)-5-(η6-C6Me6)-arachno-5-RuB

    Article • Journal of the Chemical Society Chemical Communications, January 1989, Royal Society of Chemistry

    Professor John D Kennedy

  171. Heterobimetallic B-frame complexes: novel isonido eleven-vertex rhodairidaboranes with Rh–H–Ir and B–H–B bridges

    Article • Journal of the Chemical Society Chemical Communications, January 1989, Royal Society of Chemistry

    Professor John D Kennedy

  172. Direct evidence for N→B π-donation into a polyhedral borane cluster

    Article • Journal of the Chemical Society Chemical Communications, January 1989, Royal Society of Chemistry

    Professor John D Kennedy

  173. Oxidative and cluster Aufbau reactions of nido-6-metalladeaboranes induced by Lewis bases such as SMe2: high-yield formation of [1-(η6-C6Me6)-isocloso-1-RuB9H9] and the molecular structure of the Rh-commo-(isonido-eleven-vertex)-(closo-ten-vertex)conju...

    Article • Journal of the Chemical Society Chemical Communications, January 1989, Royal Society of Chemistry

    Professor John D Kennedy

  174. A unique acetylene-induced reductive PPh3→ PH3stripping of phenyl groups from triphenylphosphine ligands bound to a metallaborane ‘B-frame’ matrix

    Article • Journal of the Chemical Society Chemical Communications, January 1989, Royal Society of Chemistry

    Professor John D Kennedy

  175. Metallaheteroborane chemistry. Part 5. Synthesis of closo-[2,2-(PR3)2-1,2-SePtB10H10](R3= Et3, Bun 3 or Me2Ph) and arachno-[9,9-(PMe2Ph)2-6,9-SePtB8H10] and their characterisation by nuclear magnetic resonance techniques: the crystal and molecular stru...

    Article • Journal of the Chemical Society Dalton Transactions, January 1989, Royal Society of Chemistry

    Professor John D Kennedy

  176. Polyhedral organoiridaborane chemistry. The reaction of MeNC with [6-(η5- C5Me5)-nido-6-IrB9H13]. Nuclear magnetic resonance studies and the crystal and molecular structure of [4,4-(η5-C...

    Article • Journal of the Chemical Society Dalton Transactions, January 1989, Royal Society of Chemistry

    Professor John D Kennedy

  177. The high-yield preparation of arachno-thiaboranes 4-SB8H12 and 4-SB8H−11

    Article • Polyhedron, January 1989, Elsevier

    Professor John D Kennedy

  178. Signs of interphosphorus nuclear spin coupling constants in octahedral transition-metal complexes containing chelated phosphine ligands

    Article • Inorganic Chemistry, March 1988, American Chemical Society (ACS)

    Professor John D Kennedy

  179. Boron-11 and proton nuclear magnetic resonance study of anti-B18H22and its anions, anti-[B18H21]–and anti-[B18H20]2–. The crystal and molecular structure of [NMe

    Article • Journal of the Chemical Society Dalton Transactions, January 1988, Royal Society of Chemistry

    Professor John D Kennedy

  180. Organoruthenaborane chemistry. Part 6. The reaction of [{Ru(η6-C6Me6)Cl2}2] with the closo-[B10H10]2–anion: characterisation of some closo-type eleven-vertex 1-ruth...

    Article • Journal of the Chemical Society Dalton Transactions, January 1988, Royal Society of Chemistry

    Professor John D Kennedy

  181. Polyhedral thiaborane chemistry: a comparative nuclear magnetic resonance study of arachno-[6-SB9H12]? and nido-6-SB9H11

    Article • Journal of the Chemical Society Dalton Transactions, January 1988, Royal Society of Chemistry

    Professor John D Kennedy

  182. Metallaheteroborane chemistry. Part 3. Synthesis of [2,2-(PR3)2-1,2-TePtB10H10](R3= Et3, Bun 3, or Me2Ph), their characterisation by nuclear magnetic resonance spectroscopy, and the crystal and molecular structure of [2,2-(PEt3)2-1,2-TePtB10H10]

    Article • Journal of the Chemical Society Dalton Transactions, January 1988, Royal Society of Chemistry

    Professor John D Kennedy

  183. A novel eleven-vertex closo-type azametallaborane: [1-(η6-MeC6H4-4-Pri)-closo-1,2-RuNB9H10]

    Article • Journal of the Chemical Society Chemical Communications, January 1988, Royal Society of Chemistry

    Professor John D Kennedy

  184. Pentamethylcyclopentadienylrhodaborane chemistry. Part 5. Preparation, molecular structure, and nuclear magnetic resonance spectra of the arachno ten-vertex rhodadecaboranes [6-(η5-C5Me5)-6,9-(RNC)2-arachno-6...

    Article • Journal of the Chemical Society Dalton Transactions, January 1988, Royal Society of Chemistry

    Professor John D Kennedy

  185. Facile pathway-defined fluxional cluster isomerization in ten-vertex closo-2,1,6-metalladicarbaboranes of ruthenium and rhodium

    Article • Journal of the Chemical Society Chemical Communications, January 1988, Royal Society of Chemistry

    Professor John D Kennedy

  186. Metallaheteroborane chemistry. Part 4. The synthesis of closo-[2,2-(PPh3)2-2-H-1,2-XMB10H10](X = Se or Te, M = Rh or Ir) compounds, their characterisation by nuclear magnetic resonance techniques, and the crystal and molecular structure of the X = Te, ...

    Article • Journal of the Chemical Society Dalton Transactions, January 1988, Royal Society of Chemistry

    Professor John D Kennedy

  187. Comparative metallaborane chemistry: preparation and nuclear magnetic resonance studies of some nido-5-metalladecaboranes of rhodium, iridium, ruthenium, and osmium

    Article • Journal of the Chemical Society Dalton Transactions, January 1988, Royal Society of Chemistry

    Professor John D Kennedy

  188. Pentamethylcyclopentadienylrhodaborane chemistry. Part 4. The isolation, molecular structure, and nuclear magnetic resonance study of an interesting phosphino-bridged arachno-type nine-vertex rhodaborane [2,5-(µ-PPh2)-1-(PHPh2)-2-...

    Article • Journal of the Chemical Society Dalton Transactions, January 1988, Royal Society of Chemistry

    Professor John D Kennedy

  189. Preparation, structure, and nuclear magnetic resonance properties of the nine-vertex nido-rhenaborane [(PMe2Ph)3H2ReB8H11] and some related chemistry

    Article • Journal of the Chemical Society Dalton Transactions, January 1988, Royal Society of Chemistry

    Professor Michael A Beckett, Professor John D Kennedy

  190. A double cluster of ruthenium and boron; [1-η2-{(η6-C6Me6)2Ru2H4}-isocloso-1-RuB10H8-2,3-(OEt)2]

    Article • Journal of the Chemical Society Chemical Communications, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  191. Homobimetallic B-frame species: [{(PPh3)2Ru}-(µ-MeCO2)3-(µ-H)2-{RuB10H7}], a unique diruthenaborane in which the metal atoms are linked by one-, two-, three-, and four-membere...

    Article • Journal of the Chemical Society Chemical Communications, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  192. Additions and corrections

    Article • Journal of the Chemical Society Dalton Transactions, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  193. Organoruthenaborane chemistry. Part 5. Products of the reaction between closo-[B10H10]2–and [(η6-C6Me6)ClRuB3H8]. Nuclear magnetic resonance studies and the crystal and molecular structure of [{(η6-C6Me6)2Ru2H4}RuB10H8(OEt)2]

    Article • Journal of the Chemical Society Dalton Transactions, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  194. Pentamethylcyclopentadienylrhodaborane chemistry. Part 2. The reaction of [6-(η5-C5Me5)-nido-6-RhB9H13] with dimethylphenylphosphine, and the characterization of [5-(η5-C5Me5)-nido-5-RhB9H11-7-(PMe2Ph)], [2-(η5-C5Me5)-closo-2-RhB9H7-3,10-(PMe2Ph)2],* a...

    Article • Journal of the Chemical Society Dalton Transactions, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  195. The preparation of [Ru(NCMe)6][7-(η6-C6Me6)-nido-7-RuB10H13]2and its characterization by single-crystal X-ray diffraction analysis and nuclear magnetic resonance spectroscopy:...

    Article • Journal of the Chemical Society Dalton Transactions, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  196. Determination of the relative signs of2J(31P–31P) in complexes of tungsten(0) and molybdenum(0) using two-dimensional [31P–31P]-COSY-45 nuclear magnetic resonance chemical shi...

    Article • Journal of the Chemical Society Dalton Transactions, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  197. The isolation and characterisation of the 1- and 2-isomers of nido-[(η6-C6Me6)RuB9H13]—but is the 1-isomer nido or arachno?

    Article • Journal of the Chemical Society Chemical Communications, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  198. Quantitative thermal rearrangement of an eleven-vertex metalladicarbaborane to give the isomeric cluster nido-[2-(η6-C6Me6)-8,10-Me2-2,8,10-OsC2B8H8] with an unexpected BCBCB ...

    Article • Journal of the Chemical Society Chemical Communications, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  199. Ruthenium(II) complexes of closo-dodecaboranyl anions and the molecular structure of the pileo thirteen-vertex ruthenaborane [(PPh3)2ClRuB12H11(NEt3)]

    Article • Journal of the Chemical Society Dalton Transactions, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  200. Identification of the endo,exo isomer of 6,9-(PMe2Ph)2-arachno-B10H12 by nuclear magnetic resonance spectroscopy

    Article • Journal of the Chemical Society Dalton Transactions, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  201. Pentamethylcyclopentadienylrhodaborane chemistry. Part 3. The reaction of [{Rh(η5-C5Me5)Cl2}2] with closo-[B10H10]2–and arachno-B10H12-6,9-(PM...

    Article • Journal of the Chemical Society Dalton Transactions, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  202. An interesting arachno eight-vertex tungstaborane: isolation and characterisation of the fluxional anion [3,3,3,3-(CO)4-arachno-WB7H12]?

    Article • Journal of the Chemical Society Chemical Communications, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  203. Synthesis, molecular structure, and nuclear magnetic resonance spectra of the anionic monocarbametallaborane [NEt4][(CO)3(PPh3)(OH)-closo-MoCB10H10]·CH2Cl2

    Article • Journal of the Chemical Society Dalton Transactions, January 1987, Royal Society of Chemistry

    Professor John D Kennedy

  204. Boron

    Article • January 1987, Springer Science + Business Media

    Professor John D Kennedy

  205. Silicon, Germanium, Tin, and Lead

    Article • January 1987, Springer Science + Business Media

    Professor John D Kennedy

  206. Synthesis, reactions, and nuclear magnetic resonance studies of some substituted arachno-decaborane and arachno-nonaborane derivatives, and the isolation of novel polyhedral diplatinaboranes. Crystal and molecular structure of [Pt2(PMe2...

    Article • Journal of the Chemical Society Dalton Transactions, January 1986, Royal Society of Chemistry

    Professor John D Kennedy

  207. Comparative ten-vertex metallaborane chemistry: some nido-6-metalladecaboranes of tungsten, rhenium, ruthenium, osmium, and iridium; including the crystal and molecular structures of [6,6,6,6,6-(PMe2Ph)3H2-nido-6-WB9H13] and [6,6,6-(PMe2Ph)3-nido-6-OsB...

    Article • Journal of the Chemical Society Dalton Transactions, January 1986, Royal Society of Chemistry

    Professor Michael A Beckett, Professor John D Kennedy

  208. Preparation and nuclear magnetic resonance properties of eleven-vertex closo-type osmaundecaboranes and the X-ray crystal structure of the ortho-cycloboronated compound [2,5-(OEt)2-1-(PPh3)-1-(o-Ph2PC6H4)-closo-1-OsB10H7-3]

    Article • Journal of the Chemical Society Dalton Transactions, January 1986, Royal Society of Chemistry

    Professor John D Kennedy

  209. Synthesis, molecular structures, and nuclear magnetic resonance properties of the macropolyhedral metallaboranes [(PMe2Ph)4Pt3B14H16] and [(PMe2Ph)PtB16H18(PMe2Ph)], and a discussion of the bonding at platinum in these and some related platinaborane cl...

    Article • Journal of the Chemical Society Dalton Transactions, January 1986, Royal Society of Chemistry

    Professor Michael A Beckett, Professor John D Kennedy

  210. Pentamethylcyclopentadienylrhodaborane chemistry. Part 1. High-yield planned synthesis, molecular structure, and nuclear magnetic resonance properties of the ten-vertex nido-6-rhodadecaborane [(η5-C5Me5)RhB9H13]

    Article • Journal of the Chemical Society Dalton Transactions, January 1986, Royal Society of Chemistry

    Professor John D Kennedy

  211. Polyhedral phosphaborane chemistry: crystal and molecular structure of the diphenylphosphido-bridged arachno-decaboranyl cluster compound [PMePh3][6,9-µ-(PPh2)B10H12]

    Article • Journal of the Chemical Society Dalton Transactions, January 1986, Royal Society of Chemistry

    Professor Michael A Beckett, Professor John D Kennedy

  212. Eleven-vertex isocloso type rhodaundecaboranes: crystal structures and nuclear magnetic resonance properties of [(PMe2Ph)2RhHB10H8(OMe)2] and [(PMe2Ph)2RhHB10H8Cl(OMe)]

    Article • Journal of the Chemical Society Dalton Transactions, January 1986, Royal Society of Chemistry

    Professor John D Kennedy

  213. Preparation of [(C5Me5)2Rh2B17H19]via a degradative insertion from anti-B18H22, and a possible mechanism for anti→syn macropolyhedral interconversion

    Article • Journal of the Chemical Society Chemical Communications, January 1986, Royal Society of Chemistry

    Professor John D Kennedy

  214. Identification and molecular structure of the eighteen-vertex macropolyhedral diplatinaoctadecaborane [(PMe2Ph)2Pt2B16H15(C6H4Me)(PMe2Ph)]

    Article • Journal of the Chemical Society Chemical Communications, January 1986, Royal Society of Chemistry

    Professor Michael A Beckett, Professor John D Kennedy

  215. Two-dimensional1H–1H COSY n.m.r. spectroscopy in polyhedral boron hydride chemistry

    Article • Journal of the Chemical Society Chemical Communications, January 1986, Royal Society of Chemistry

    Professor John D Kennedy

  216. Correlation of thallium–boron nuclear spin states by two-dimensional n.m.r. spectroscopy: magnitudes and relative signs of couplingsnJ(205Tl–11B) in the nido-thallaundecaborane anion [Me2TlB10H

    Article • Journal of the Chemical Society Chemical Communications, January 1985, Royal Society of Chemistry

    Professor Michael A Beckett, Professor John D Kennedy

  217. Polyhedral rhenaborane chemistry: crystal and molecular structures of the nido-6-rhenadecaborane cluster compounds [6,6,6,6-(PMe2Ph)3H-nido-6- ReB9H13] and [2-(PMe2Ph)-6,6,6,6-(PMe2Ph)2ClH-nido-6-ReB9H12]; nuclear magnetic resonance parameters of these...

    Article • Journal of the Chemical Society Dalton Transactions, January 1985, Royal Society of Chemistry

    Professor Michael A Beckett, Professor John D Kennedy

  218. Preparation and structure of [7-(η5-C5Me5)-8-Cl-11-(PMe2Ph)-nido-7-RhB10H11], a metallaborane analogue of the fluxional borane anion nido-B11H14–

    Article • Journal of the Chemical Society Chemical Communications, January 1985, Royal Society of Chemistry

    Professor John D Kennedy

  219. An unusual open twelve-vertex oxametallaborane cluster compound: synthesis and structure of [7-(η5-C5Me5)-8-Cl-11-(PMe2Ph)-nido-7,12-RhOB10H9]

    Article • Journal of the Chemical Society Chemical Communications, January 1985, Royal Society of Chemistry

    Professor John D Kennedy

  220. Polyhedral ruthenaborane chemistry: characterization of several new ruthenaboranes by nuclear magnetic resonance spectroscopy, and the crystal and molecular structure of [5,6,6-(PPh3)3-6-H-nido-6-RuB9H12]

    Article • Journal of the Chemical Society Dalton Transactions, January 1985, Royal Society of Chemistry

    Professor John D Kennedy

  221. Two unusual closo-type ruthenaboranes: preparation, molecular structure, and nuclear magnetic resonance properties of [1,1,1 -(PPh3)HCl-1-RuB9H7-3,5-(PPh3)2] and [1,1 -(PPh3)2-1 -RuB10H8-2,5-(OEt)2]

    Article • Journal of the Chemical Society Dalton Transactions, January 1985, Royal Society of Chemistry

    Professor John D Kennedy

  222. Reactions of 6,6′-bis(nido-decaboranyl) oxide and 6-hydroxy-nido-decaborane with dihalogenobis(phosphine) complexes of nickel, palladium, and platinum, and some related chemistry; nuclear magnetic resonance investigations and the crystal and molecular ...

    Article • Journal of the Chemical Society Dalton Transactions, January 1985, Royal Society of Chemistry

    Professor John D Kennedy

  223. The crystal and molecular structure of [1,1,1,1-(CO)H(PPh3)2-arachno-1-IrB3H7] and some bonding considerations in arachno-type four-vertex metal ‘π-allyl’ and ‘borallyl’ clusters

    Article • Journal of the Chemical Society Dalton Transactions, January 1985, Royal Society of Chemistry

    Professor John D Kennedy

  224. Preparation, crystal and molecular structure of, and NMR parameters for, the exopolyhedral heterocyclic platinaundecaborane [μ-2,7-(SCSNEt2)-7-(PMe2Ph)-NIDO-7-PtB10H11]

    Article • Polyhedron, January 1985, Elsevier

    Professor Michael A Beckett, Professor John D Kennedy

  225. The chemistry of isomers of icosaborane(26): Crystal and molecular structure of 1,2′-bi(nido-decaboranyl)

    Article • Polyhedron, January 1985, Elsevier

    Professor John D Kennedy

  226. Iridanonaborane chemistry. Some reactions of arachno-4-irida-nonaboranes: nuclear magnetic resonance investigations and the molecular structure of the nido nine-vertex species [2,2,2-(CO)(PMe3)2-nido-2-IrB8H11]

    Article • Journal of the Chemical Society Dalton Transactions, January 1984, Royal Society of Chemistry

    Professor John D Kennedy

  227. Homo- and hetero-bimetallic B-frame compounds: some novel twelve-vertex Ru/Ru, Os/Os, Ru/Os, and Os/Ru metallaboranes

    Article • Journal of the Chemical Society Chemical Communications, January 1984, Royal Society of Chemistry

    Professor John D Kennedy

  228. Synthesis and nuclear magnetic resonance study of the auranonaborane and diauradecaborane arachno-type compounds, [4-(S2CNEt2)-arachno-4-AuB8H12] and [6,9-(S2CNEt2)2-arachno-6,9-Au2B8H10]; crystal and molecular structure of [6,9-(S2CNEt2)2-arachno-6,9-...

    Article • Journal of the Chemical Society Dalton Transactions, January 1984, Royal Society of Chemistry

    Professor Michael A Beckett, Professor John D Kennedy

  229. Iridanonaborane chemistry: preparation and characterization of some arachno-4-iridanonaboranes by nuclear magnetic resonance spectroscopy and single-crystal X-ray diffraction analysis

    Article • Journal of the Chemical Society Dalton Transactions, January 1984, Royal Society of Chemistry

    Professor John D Kennedy

  230. The reactions of arachno-decaboranyl complexes L2B10H12(L = two-electron donor ligand) with some platinum(II) compounds; nuclear magnetic resonance studies and the crystal and molecular structure of [8-Cl-7,7-(PMe2Ph)2-nido-7-PtB10H11]

    Article • Journal of the Chemical Society Dalton Transactions, January 1984, Royal Society of Chemistry

    Professor John D Kennedy

  231. A novel closo-type metallaundecaborane, [1,1-(PPh3)2-2,5-(OEt)2-1-RuB10H8], and its relationship to the ‘isocloso’ series of metallaborane clusters

    Article • Polyhedron, January 1984, Elsevier

    Professor John D Kennedy

  232. closo–nido-Cluster isomerism in metallacarbaboranes via a change of metal valency state: molecular structure of µ-1,2-acetato-2-hydrido-2,10-bis(triphenylphosphine)-closo-1,2-carbairidadecaborane

    Article • Journal of the Chemical Society Chemical Communications, January 1983, Royal Society of Chemistry

    Professor John D Kennedy

  233. B-frame supported heterobimetallic species; molecular structure of [(Me3P)2Pt(Ph3P)(Ph2PC6H4)HIrB9H10]

    Article • Journal of the Chemical Society Chemical Communications, January 1983, Royal Society of Chemistry

    Professor John D Kennedy

  234. A macropolyhedral polymetallaborane cluster: molecular structure of the seventeen-vertex triplatinaheptadecaborane [(PhMe2P)4Pt3B14H16]

    Article • Journal of the Chemical Society Chemical Communications, January 1983, Royal Society of Chemistry

    Professor Michael A Beckett, Professor John D Kennedy

  235. An n.m.r. study of the arachno-[B10H12PPh2]–anion: and interesting arachno→arachno topological transition induced by deprotonation

    Article • Journal of the Chemical Society Chemical Communications, January 1983, Royal Society of Chemistry

    Professor Michael A Beckett, Professor John D Kennedy

  236. Heterobimetallic B-frame compounds: systematic synthesis and molecular structure of the seven-vertex µ-HOs,Pt-nido-osmaplatinaborane [(Ph3P)2(CO)(Os)(PhMe2P)ClHPtB5H7]

    Article • Journal of the Chemical Society Chemical Communications, January 1983, Royal Society of Chemistry

    Professor John D Kennedy

  237. The transition-metal assisted synthesis of the anti-octadecaborate Anion [B18H21]− from the Nido-dodecahydrononaborate anion [B9H12]−

    Article • Polyhedron, January 1983, Elsevier

    Professor John D Kennedy

  238. Corrigendum

    Article • Journal of the Chemical Society Chemical Communications, January 1982, Royal Society of Chemistry

    Professor John D Kennedy

  239. A novel diplatinadecaborane with a Pt–Pt bond: [(PMe2Ph)2(Pt2B8H14)]

    Article • Journal of the Chemical Society Chemical Communications, January 1982, Royal Society of Chemistry

    Professor John D Kennedy

  240. A fluxional arachno-1 -metallapentaborane, [1,1,1 -(CO)(PMe3)2(1-IrB4H9)]

    Article • Journal of the Chemical Society Dalton Transactions, January 1982, Royal Society of Chemistry

    Professor John D Kennedy

  241. New modes of bonding in some platinum derivatives of B18H22: X-ray crystal structures of [(Pt2B18H16)(PMe2Ph)4] and of three structural lsomers of [(PtB18H20)(PMe2Ph)2]

    Article • Journal of the Chemical Society Chemical Communications, January 1982, Royal Society of Chemistry

    Professor John D Kennedy

  242. Proton and boron-11 nuclear spin relaxation and the molecular tumbling of nido-decaborane in perdeuterotoluene solution. An interesting transition in solute–solvent interaction behaviour

    Article • Journal of the Chemical Society Faraday Transactions 2 Molecular and Chemical Physics, January 1982, Royal Society of Chemistry

    Professor John D Kennedy

  243. Some ten-vertex nido-metallaboranes : oxidative insertion of iridium(I) and rhodium(I) into the arachno-nonaborate anion, [B9H14]–, and the crystal and molecular structure of 6-hydrido-6,6-bis(trip...

    Article • Journal of the Chemical Society Dalton Transactions, January 1982, Royal Society of Chemistry

    Professor John D Kennedy

  244. Facile thermally-induced cluster oxidations in metallaborane chemistry: arachno→nido→closo reaction sequences exhibited by iridanonaboranes and iridadecaboranes, and the stabilization of the iridium(V) oxidation state

    Article • Journal of the Chemical Society Chemical Communications, January 1982, Royal Society of Chemistry

    Professor John D Kennedy

  245. Molecular structure of the 17-vertex conjuncto-platinaheptadecaborane [(PMe2Ph){PtB16H18(PMe2Ph)}]: a 16-vertex η6-hexadecaboranyl ligand

    Article • Journal of the Chemical Society Chemical Communications, January 1982, Royal Society of Chemistry

    Professor Michael A Beckett, Professor John D Kennedy

  246. A novel exo-bicyclic closo-six-vertex dimetalla-hexaborane : [1,1,2-(CO)3-1-(PPh3)-2,2-(Ph2PC6H4)2-close-(1,2-Ir2B4H2-3,5-)]. CH2Cl2

    Article • Journal of the Chemical Society Chemical Communications, January 1982, Royal Society of Chemistry

    Professor John D Kennedy

  247. Quantitative ortho-cycloboronation of P-phenyl groups in metallaborane chemistry and the crystal and molecular structure of the novel iso-closo-ten-vertex metallaborane [1,1,1-H(PPh3)(Ph2P-ortho-C6H4)-iso-closo-(1-IrB9H8-2-)]

    Article • Journal of the Chemical Society Chemical Communications, January 1982, Royal Society of Chemistry

    Professor John D Kennedy

  248. Corrigenda

    Article • Journal of the Chemical Society Chemical Communications, January 1982, Royal Society of Chemistry

    Professor John D Kennedy

  249. The chemistry of isomers of icosaborane(26), B20H26: synthesis and nuclear magnetic resonance study of various isomers of platinahenicosaboranes and diplatinadocosaboranes, and the X-ray crystal and molecular structures of 7,7-bis...

    Article • Journal of the Chemical Society Dalton Transactions, January 1981, Royal Society of Chemistry

    Professor John D Kennedy

  250. A new route to isomers of icosaborane(26), B20H26. The use of 115.5-MHz11B and11B-{1H} nuclear magnetic resonance spectroscopy for the comparison and characterisation of separated isomers and the i...

    Article • Journal of the Chemical Society Dalton Transactions, January 1981, Royal Society of Chemistry

    Professor John D Kennedy

  251. A novel oxidative insertion of a metal centre into a degraded closo-borane cluster; crystal and molecular structure of the ten-vertex iso-nido cluster [{IrC(OH)B8H6(OMe)}(C6H4PPh2)(PPh3)]

    Article • Journal of the Chemical Society Chemical Communications, January 1981, Royal Society of Chemistry

    Professor John D Kennedy

  252. Synthesis, molecular structure, and nuclear magnetic resonance investigation of the platinanonaborane and diplatinadecaborane cluster compounds, [4,4-(PMe2Ph)2-arachno-4-PtB8H12] and [6,6,9,9-(PMe2-Ph)4-arachno-6,9-Pt2B8H10]

    Article • Journal of the Chemical Society Dalton Transactions, January 1981, Royal Society of Chemistry

    Professor John D Kennedy

  253. The characterisation of 1,1-diphenylstannacyclopentane and 1,1,6,6-tetraphenyl-1,6-distannacyclodecane. An X-ray diffraction study of the distannacyclodecane

    Article • Journal of the Chemical Society Perkin Transactions 2, January 1981, Royal Society of Chemistry

    Professor John D Kennedy

  254. Indirect nuclear spin spin coupling constants of tin-119 and lead-207 to nitrogen and phosphorus in organometallic compounds

    Article • Journal of Organometallic Chemistry, August 1980, Elsevier

    Professor John D Kennedy

  255. An NMR investigation of the [B10H12]2− ligand in [Pt(B10H12) (PMe2Ph)2]

    Article • Journal of Magnetic Resonance (1969), March 1980, Elsevier

    Professor John D Kennedy

  256. Dynamic n.m.r. behaviour of {6,7,8,9-η4-nido-decaborato(2–)}bis(dimethylphenylphosphine)platinum(II), [Pt(η4-B10H12)(PMe2Ph)2]; a novel type of metalloborane fluxionality

    Article • Journal of the Chemical Society Chemical Communications, January 1980, Royal Society of Chemistry

    Professor John D Kennedy

  257. Bis-µ-(2,3,4-η3-nido-hexaboranyl)-bis(dimethylphenylphosphine)diplatinum(Pt–Pt), [Pt2(η3-B6H9)2(PMe2Ph)2], an unexpected product from the reaction of (B10

    Article • Journal of the Chemical Society Chemical Communications, January 1980, Royal Society of Chemistry

    Professor John D Kennedy

  258. The chemistry of isomeric icosaboranes, B20H26. Molecular structures and physical characterization of 2,2′- bi(nido-decaboranyl) and 2,6′-bi-(nido-decaboranyl)

    Article • Journal of the Chemical Society Dalton Transactions, January 1980, Royal Society of Chemistry

    Professor John D Kennedy

  259. Reactions of the octahydrotriborate(1–) anion, [B3H8]–, with some complexes of cobalt(I), cobalt(II), rhodium(I), and iridium(I), and the characterization of the ‘borallyl’ co...

    Article • Journal of the Chemical Society Dalton Transactions, January 1980, Royal Society of Chemistry

    Professor John D Kennedy

  260. NMR Studies on Halogeno-cis-bis(phosphine)-nido-pentaboranyl Derivatives of Nickel, Palladium, and Platinum

    Article • Zeitschrift für Naturforschung B, June 1979, De Gruyter

    Professor John D Kennedy

  261. The signs of nuclear spin-spin coupling constants in some organoplatinum compounds

    Article • Journal of Organometallic Chemistry, June 1979, Elsevier

    Professor John D Kennedy

  262. Isomers of B20H26: structural characterisation by X-ray diffraction of 2,2′-Bi(nido-decaboranyl)

    Article • Journal of the Chemical Society Chemical Communications, January 1979, Royal Society of Chemistry

    Professor John D Kennedy

  263. Cage expansion in metallopentaborane chemistry: the preparation and structure of 2-{carbonylbis(triphenylphosphine)irida}-nido-hexaborane, [(IrB5H8)(CO)(PPh3)2]

    Article • Journal of the Chemical Society Dalton Transactions, January 1979, Royal Society of Chemistry

    Professor John D Kennedy

  264. Isomers of B20H26: elucidation of the structure of 6,6′-Bi(nido-decaboranyl) by11B-{1H} and1H-{11B} n.m.r. spectroscopy

    Article • Journal of the Chemical Society Chemical Communications, January 1979, Royal Society of Chemistry

    Professor John D Kennedy

  265. Isomers of icosaborane(26): some synthetic routes and preliminary characterisations in the bis(nido-decaboranyl) system

    Article • Journal of the Chemical Society Dalton Transactions, January 1979, Royal Society of Chemistry

    Professor John D Kennedy

  266. N.m.r. evidence for a transition between isotropic and anisotropic thermal motion of nido-decaborane in an aromatic solvent

    Article • Journal of the Chemical Society Chemical Communications, January 1979, Royal Society of Chemistry

    Professor John D Kennedy

  267. Dicarbonyl(η-cyclopentadienyl)iron(II) derivatives of pentaborane(9)

    Article • Journal of the Chemical Society Dalton Transactions, January 1978, Royal Society of Chemistry

    Professor John D Kennedy

  268. Some palladium(II) and platinum(II) derivatives of pentaborane(9)

    Article • Journal of the Chemical Society Dalton Transactions, January 1978, Royal Society of Chemistry

    Professor John D Kennedy

  269. Formation and X-ray crystal structure of 1,1,6,6-tetraphenyl-1,6-distannacyclodecane

    Article • Journal of the Chemical Society Chemical Communications, January 1978, Royal Society of Chemistry

    Professor John D Kennedy

  270. Preparation and structure of 1,4-dichloro-1,1,3,3-tetraphenyl-catena-di-(boraphosphane), BH2Cl·PPh2·BH2·PPh2Cl

    Article • Journal of the Chemical Society Dalton Transactions, January 1978, Royal Society of Chemistry

    Professor John D Kennedy

  271. N.M.R. studies of dimethyl cadmium partially oriented in the nematic phase of EBBA

    Article • Molecular Physics, July 1977, Taylor & Francis

    Professor John D Kennedy

  272. Auto-association in organometallic compounds: a nuclear magnetic double resonance study of methyl- and n-butyl-tin alkoxides

    Article • Journal of the Chemical Society Perkin Transactions 2, January 1977, Royal Society of Chemistry

    Professor John D Kennedy

  273. Lead-207 shielding in organolead compounds

    Article • Journal of the Chemical Society Dalton Transactions, January 1977, Royal Society of Chemistry

    Professor John D Kennedy

  274. Magnetic double-resonance measurements of rhodium, phosphorus, fluorine, and proton nuclear magnetic resonance parameters in some rhodium(I) and rhodium(III) compounds

    Article • Journal of the Chemical Society Dalton Transactions, January 1977, Royal Society of Chemistry

    Professor John D Kennedy

  275. Auto-association in organometallic compounds: a nuclear magnetic resonance study of methylcadmium alkoxides

    Article • Journal of the Chemical Society Perkin Transactions 2, January 1977, Royal Society of Chemistry

    Professor John D Kennedy

  276. Indirect nuclear spin-spin coupling of lead-207 to other magnetic nuclei

    Article • Inorganic Chemistry, June 1976, American Chemical Society (ACS)

    Professor John D Kennedy

  277. Phosphorus-31 chemical shift anisotropies in organophosphorus compounds

    Article • Journal of the Chemical Society Chemical Communications, January 1976, Royal Society of Chemistry

    Professor John D Kennedy

  278. Nuclear spin–spin coupling between directly bound tin atoms studied by a novel form of INDOR spectroscopy

    Article • Journal of the Chemical Society Dalton Transactions, January 1976, Royal Society of Chemistry

    Professor John D Kennedy

  279. The signs of nuclear spin coupling constants in some trifluoromethyl derivatives of platinum and of gold

    Article • Journal of the Chemical Society Dalton Transactions, January 1976, Royal Society of Chemistry

    Professor John D Kennedy

  280. Studies of 199Hg nuclear shielding anisotropies and their relation to isotropic chemical shifts

    Article • Journal of the Chemical Society Faraday Transactions 2 Molecular and Chemical Physics, January 1976, Royal Society of Chemistry

    Professor John D Kennedy

  281. Magnetic double-resonance studies of platinum-195 chemical shifts in organoplatinum compounds

    Article • Journal of the Chemical Society Dalton Transactions, January 1976, Royal Society of Chemistry

    Professor John D Kennedy

  282. The geometry of triethynyl phosphine partially oriented in a nematic liquid crystal

    Article • Journal of Molecular Structure, January 1976, Elsevier

    Professor John D Kennedy

  283. Magnetic double resonance studies of trimethyltin chalcogenides

    Article • Journal of Organometallic Chemistry, July 1975, Elsevier

    Professor John D Kennedy

  284. Magnetic double resonance studies of carbon-13 and nitrogen-15 chemical shift anisotropies in methyl cyanide partially oriented in a nematic liquid crystal

    Article • Molecular Physics, February 1975, Taylor & Francis

    Professor John D Kennedy

  285. Nuclear spin–spin coupling between tin and other directly bound elements

    Article • Journal of the Chemical Society Dalton Transactions, January 1975, Royal Society of Chemistry

    Professor John D Kennedy

  286. Determination of the sign and magnitude of J(XX) in [A n X] M p nuclear spin systems

    Article • Journal of the Chemical Society Chemical Communications, January 1975, Royal Society of Chemistry

    Professor John D Kennedy

  287. Magnetic double resonance studies of tin-119 chemical shifts in compounds with tin–sulphur bonds and related species

    Article • Journal of the Chemical Society Perkin Transactions 2, January 1975, Royal Society of Chemistry

    Professor John D Kennedy

  288. The magnitude and sign of 1J(207Pb-207Pb) in hexamethyldilead

    Article • Journal of Organometallic Chemistry, November 1974, Elsevier

    Professor John D Kennedy

  289. Sign and magnitude of1K(Sn–C) in trimethylstannyl-lithium: the first example of a negative reduced nuclear spin–spin coupling constant between two directly bound Group IV elements

    Article • Journal of the Chemical Society Chemical Communications, January 1974, Royal Society of Chemistry

    Professor John D Kennedy

  290. Magnetic double resonance studies of some methyltin alkane- and benzene-thiolates

    Article • Journal of the Chemical Society Perkin Transactions 2, January 1974, Royal Society of Chemistry

    Professor John D Kennedy

  291. Mercury-199 chemical shift anisotropy in methyl mercuric bromide

    Article • Journal of the Chemical Society Chemical Communications, January 1974, Royal Society of Chemistry

    Professor John D Kennedy

  292. Through-space spin coupling between phosphorus and hydrogen in .pi.-C5H5W(CO)2PR3X (R = methyl, phenyl, methoxy, etc. X = iodine, trimethyltin)

    Article • Inorganic Chemistry, November 1973, American Chemical Society (ACS)

    Professor John D Kennedy

  293. Nuclear magnetic double resonance studies of organotin selenides

    Article • Journal of the Chemical Society Dalton Transactions, January 1973, Royal Society of Chemistry

    Professor John D Kennedy

  294. Auto-association in organotin compounds: butyltin trialkoxides

    Article • Journal of the Chemical Society Perkin Transactions 2, January 1973, Royal Society of Chemistry

    Professor John D Kennedy

  295. Electron impact fragmentation of isomeric trimethylstannylnorbornenes and some related compounds

    Article • Journal of the Chemical Society Perkin Transactions 2, January 1972, Royal Society of Chemistry

    Professor John D Kennedy

  296. Magnetic double resonance studies of 119Sn chemical shifts in organotin compounds

    Article • Journal of the Chemical Society C Organic, January 1969, Royal Society of Chemistry

    Professor John D Kennedy