All Stories

  1. Effect of Group I alkali metal promoters on Fe/CNT catalysts in Fischer–Tropsch synthesis
  2. Shaped Carbons As Supports for the Catalytic Conversion of Syngas to Clean Fuels
  3. Electrochemical and photo-electrochemical properties of carbon spheres prepared via chemical vapor deposition
  4. UV-assisted synthesis of indium nitride nano and microstructures
  5. The Effect of Reducing Agents on the Electronic, Magnetic and Electrocatalytic Properties of Thiol-Capped Pt/Co and Pt/Ni Nanoparticles
  6. Au-controlled enhancement of photoluminescence of NiS nanostructures synthesized via a microwave-assisted hydrothermal technique
  7. Methanol oxidation reaction activity of microwave-irradiated and heat-treated Pt/Co and Pt/Ni nano-electrocatalysts
  8. Catalyst Free Vapour–Solid Growth of Novel GaN Nanostructures at Low Temperature
  9. Dehydroaromatization of methane over doped Pt/Mo/H-ZSM-5 zeolite catalysts: The promotional effect of tin
  10. Synthesis of gold encapsulated in spherical carbon capsules with a mesoporous shell structure. A robust catalyst in a nanoreactor
  11. Fischer–Tropsch synthesis: Iron-based catalysts supported on nitrogen-doped carbon nanotubes synthesized by post-doping
  12. Carbon nanostructures in organic WORM memory devices
  13. Fischer–Tropsch synthesis: Iron catalysts supported on N-doped carbon spheres prepared by chemical vapor deposition and hydrothermal approaches
  14. GaN nanostructures-poly(vinyl alcohol) composite based hydrostatic pressure sensor device
  15. Tristimulus mathematical treatment application for monitoring fungi infestation evolution in melon using the electrical response of carbon nanostructure-polymer composite based sensors
  16. The Role of Organometallic Complexes in the Synthesis of Shaped Carbon Materials
  17. Cobalt catalysts supported on a micro-coil carbon in Fischer–Tropsch synthesis: A comparison with CNTs and CNFs
  18. Efficient and reusable Co/nitrogen doped hollow carbon sphere catalysts for the aerobic oxidation of styrene
  19. Pd on boron-doped hollow carbon spheres – PdO particle size and support effects
  20. ChemInform Abstract: Dioxirane Oxidation of 2-Aryl-1-vinyl-1,1-diphosphane Dioxide: A Convenient Approach for the Synthesis of Novel 1,2-Epoxy-2-aryl Ethylgembisphosphonates.
  21. Nitrogen-doped carbon spheres: an X-ray absorption near-edge structure spectroscopy study
  22. Carbon spheres for energy applications: Raman and X-ray photoemission spectroscopy studies
  23. Functionalized Spherical Carbon Nanostructure/Poly(vinylphenol) Composites for Application in Low Power Consumption Write-Once-Read-Many Times Memories
  24. Cu grown carbon nanofibers – Variation of their chemical and physical properties
  25. Synthesis and characterization of single wall carbon nanotube-grafted poly(3-hexylthiophene) and their nanocomposites with gold nanoparticles
  26. Application of Gallium Nitride Nanostructures and Nitrogen Doped Carbon Spheres as Supports for the Hydrogenation of Cinnamaldehyde
  27. Undoped, nitrogen-doped and boron-doped multiwalled carbon nanotube/poly(vinyl alcohol) composite as active layer in simple hydrostatic pressure sensors
  28. Control of carbon helix fiber formation and fiber composition over Cu/SrO catalyst mixtures
  29. ChemInform Abstract: Palladium-Supported Boron-Doped Hollow Carbon Spheres as Catalysts for the Solvent-Free Aerobic Oxidation of Alcohols.
  30. Dioxirane Oxidation of 2‐Aryl‐1‐vinyl‐1, 1‐diphosphane Dioxide: A Convenient Approach for the Synthesis of Novel 1,2‐Epoxy‐2‐aryl Ethylgembisphosphonates
  31. Influence of Thermal Treatment on Kankara Kaolinite
  32. Nitrogen-doped, boron-doped and undoped multiwalled carbon nanotube/polymer composites in WORM memory devices
  33. Size-dependent and intra-band photoluminescence of NiS2 nano-alloys synthesized by microwave assisted hydrothermal technique
  34. Corrigendum: Palladium-Supported Boron-Doped Hollow Carbon Spheres as Catalysts for the Solvent-free Aerobic Oxidation of Alcohols
  35. The use of aliphatic alcohol chain length to control the nitrogen type and content in nitrogen doped carbon nanotubes
  36. Incorporation of small BN domains in graphene during CVD using methane, boric acid and nitrogen gas
  37. Polymer composite of poly(vinyl phenol)-reduced graphene oxide reduced by vitamin C in low energy consuming write-once–read-many times memory devices
  38. Synthesis of C60-containing Polymers by Ring-opening Metathesis Co-polymerization of a C60-cyclopentadiene Cycloadduct andN-(cycloheptyl)-endo-norbornene-5,6-dicarboximide and their Application in a Photovoltaic Device
  39. Tubular shaped composites made from polythiophene covalently linked to Prato functionalized N-doped carbon nanotubes
  40. Back Cover: Palladium-Supported Boron-Doped Hollow Carbon Spheres as Catalysts for the Solvent-free Aerobic Oxidation of Alcohols (ChemCatChem 12/2012)
  41. Electronic Detection of Drechslera sp. Fungi in Charentais Melon (Cucumis melo Naudin) Using Carbon-Nanostructure-Based Sensors
  42. Palladium-Supported Boron-Doped Hollow Carbon Spheres as Catalysts for the Solvent-free Aerobic Oxidation of Alcohols
  43. Nanocomposites of gold and poly(3-hexylthiophene) containing fullerene moieties: Synthesis, characterization and application in solar cells
  44. The role of the hydrocarbon source on the growth of carbon materials
  45. The synthesis, properties and uses of carbon materials with helical morphology
  46. The OFF to ON switching time and ON state consolidation in write-once-read-many-times memory devices based on doped and undoped carbon-sphere/polymer composites
  47. The effect of substituted alkynes on nickel catalyst morphology and carbon fiber growth
  48. The effect of tube filling on the electronic properties of Fe filled carbon nanotubes
  49. Catalyst restructuring studies: The facile synthesis of tripod-like carbon fibers by the decomposition of trichloroethylene
  50. Promotion of Co/carbon sphere Fischer–Tropsch catalysts by residual K and Mn from carbon oxidation by KMnO4
  51. Crystal Structure of (Cycloocta-1,5-diene)tris(hydrazine)hydrido-ruthenium(II) tetraphenylborate
  52. A comparative study on hydrostatic pressure response of sensors based on N-doped, B-doped and undoped carbon-sphere poly (vinyl alcohol) composites
  53. Origin of conductivity crossover in entangled multiwalled carbon nanotube networks filled by iron
  54. Microwave Irradiation of Ruthenium on Nitrogen-Doped Carbon Nanotubes
  55. Synthesis and characterization of gallium nitride nanorods (GaN-NRs) for sensor and catalysis applications
  56. Nitrogen doping of CVD multiwalled carbon nanotubes: Observation of a large g-factor shift
  57. Composites of Polyvinyl Alcohol and Carbon (Coils, Undoped and Nitrogen Doped Multiwalled Carbon Nanotubes) as Ethanol, Methanol and Toluene Vapor Sensors
  58. A Novel Type of Carbon: The Synthesis of Patterned Co-block Carbon Nanofibers
  59. The use of transmission electron microscopy tomography to correlate copper catalyst particle morphology with carbon fiber morphology
  60. Synthesis and characterization of nickel selenide nanoparticles: size and shape determining parameters
  61. Nitrogen-doped carbon nanotubes as a metal catalyst support
  62. A review of shaped carbon nanomaterials
  63. A review of shaped carbon nanomaterials
  64. A comparison of Au/Co/Al2O3 and Au/Co/SiO2 catalysts in the Fischer–Tropsch reaction
  65. AC-Conductance and Capacitance Measurements for Ethanol Vapor Detection Using Carbon Nanotube-Polyvinyl Alcohol Composite Based Devices
  66. Correlating the preparation and performance of cobalt catalysts supported on carbon nanotubes and carbon spheres in the Fischer–Tropsch synthesis
  67. Effect of acid treatment on the surface of multiwalled carbon nanotubes prepared from Fe–Co supported on CaCO3: Correlation with Fischer–Tropsch catalyst activity
  68. The Use of CaCO3 and Ca3(PO4)2 as Supports for Fe-Co Catalysts for Carbon Nanotube Synthesis: A Comparative Study
  69. The selective hydrogenation of acetylene on palladium–carbon nanostructured catalysts
  70. The influence of nitrogen sources on nitrogen doped multi-walled carbon nanotubes
  71. Hydrostatic pressure sensor based on carbon sphere – polyvinyl alcohol composites
  72. Fischer–Tropsch synthesis over model iron catalysts supported on carbon spheres: The effect of iron precursor, support pretreatment, catalyst preparation method and promoters
  73. Simple write-once-read-many-times memory device based on a carbon sphere-poly(vinylphenol) composite
  74. Carbon spheres
  75. Experimental evidence for the early nucleation of single-walled carbon nanotubes
  76. A Facile Procedure to Shorten Multiwalled Carbon Nanotubes
  77. Mesoporous ethanesilica materials with bimodal and trimodal pore-size distributions synthesised in the presence of cobalt ions
  78. ChemInform Abstract: Organometallic Chemistry in the Solid State
  79. Influence of methylimidazole isomers on ferrocene-catalysed nitrogen doped carbon nanotube synthesis
  80. Indium as a chemical promoter in Fe-based Fischer-Tropsch synthesis
  81. Nitrogen Doped Carbon Nanotubes from Organometallic Compounds: A Review
  82. Autoreduction and Catalytic Performance of a Cobalt Fischer-Tropsch Synthesis Catalyst Supported on Nitrogen-Doped Carbon Spheres
  83. Small Au Nanoparticles Supported on MCM-41 Containing a Surfactant
  84. In situoptical emission study on the role of C2 in the synthesis of single-walled carbon nanotubes
  85. Highly Loaded Fe-MCM-41 Materials: Synthesis and Reducibility Studies
  86. Morphological and optical properties of MnS/polyvinylcarbazole hybrid composites
  87. Fischer-Tropsch Synthesis
  88. The negative effects of alcohols on carbon nanotube synthesis in a nebulised spray pyrolysis process
  89. The effect of arylferrocene ring substituents on the synthesis of multi-walled carbon nanotubes
  90. A Study of the Al–Mg–B Ternary Phase Diagram
  91. Boron-doped carbon microspheres
  92. Synthesis of branched carbon nanotubes using copper catalysts in a hydrogen-filled DC arc-discharger
  93. Influence of bases on hydrothermal synthesis of titanate nanostructures
  94. ChemInform Abstract: The Use of Organometallic Transition Metal Complexes in the Synthesis of Shaped Carbon Nanomaterials
  95. Synthesis of Titania Nanostructures and their Application as Catalyst Supports for Hydrogenation and Oxidation Reactions
  96. Synthesis of Titania Nanostructures and their Application as Catalyst Supports for Hydrogenation and Oxidation Reactions
  97. Physical properties of CVD boron-doped multiwalled carbon nanotubes
  98. Substitution reactions of Fe and Ru complexes with liquid phosphite ligands in the absence of solvents
  99. CVD synthesis of nitrogen doped carbon nanotubes using ferrocene/aniline mixtures
  100. Alkylation of catechol with methanol to give guaiacol over sulphate-modified zirconia solid acid catalysts: The influence of structural modification of zirconia on catalytic performance
  101. Iron–cobalt catalysts synthesized by a reverse micelle impregnation method for controlled growth of carbon nanotubes
  102. The use of organometallic transition metal complexes in the synthesis of shaped carbon nanomaterials
  103. The effect of sulfur addition during the preparation of Co/Zn/TiO2 Fischer–Tropsch catalysts
  104. Potassium Titanate: An Alternative Support for Gold Catalyzed Carbon Monoxide Oxidation?
  105. Carbon microsphere supported Pd catalysts for the hydrogenation of ethylene
  106. Gas phase hydrogenation of ortho-chloronitrobenzene (O-CNB) to ortho-chloroaniline (O-CAN) over unpromoted and alkali metal promoted-alumina supported palladium catalysts
  107. Selective hydrogenation of o-chloronitrobenzene over palladium supported nanotubular titanium dioxide derived catalysts
  108. Alkylation of catechol with methanol to guaiacol over sulphate-modified zirconia solid acid catalysts
  109. Fe-Ru small particle bimetallic catalysts supported on carbon nanotubes for use in Fischer–Tröpsch synthesis
  110. Ring‐opening Metathesis Co‐polymerization of a C60‐cyclopentadiene Cycloadduct and Norbornene with the Grubbs Second‐generation Catalyst
  111. Effect of cobalt carboxylate precursor chain length on Fischer-Tröpsch cobalt/alumina catalysts
  112. Effect of Ferrocene/Carbon Ratio on the Size and Shape of Carbon Nanotubes and Microspheres
  113. Floating catalyst CVD synthesis of carbon nanotubes from CpFe(CO)2X (X=Me, I): Poisoning effects of I
  114. Effect of the addition of Au on Co/TiO2 catalyst for the Fischer–Tropsch reaction
  115. Nanotubular titanate supported palladium catalysts: The influence of structure and morphology on phenol hydrogenation activity
  116. Organometallic Chemistry in the Melt Phase
  117. Boron mediated synthesis of multiwalled carbon nanotubes by chemical vapor deposition
  118. Solvent-free Substitution Reactions of Solid Phosphines with (η5-RC5H4)Fe(CO)2I (R = H, Me) Complexes
  119. The preparation and study of sol–gel synthesized Co/Zn/TiO2 Fischer–Tropsch catalysts
  120. Organometallic chemistry in the melt phase
  121. Carbon nanotube synthesis using ferrocene and ferrocenyl sulfide. The effect of sulfur
  122. Fischer–Tröpsch synthesis over Co/TiO2: Effect of ethanol addition
  123. Synthesizing a Process from Experimental Results:  A Fischer−Tropsch Case Study
  124. Synthesis of multi-walled carbon nanotubes catalyzed by substituted ferrocenes
  125. Synthesis and reactivity of gold nanoparticles supported on transition metal doped mesoporous silica
  126. Synthesis of mesoporous carbon supports via liquid impregnation of polystyrene onto a MCM-48 silica template
  127. Dicarbonyl(η5-cyclopentadienyl)iodoruthenium(II)
  128. Solid-state cis–trans isomerization reaction of (η5-MeC5H4)W(CO)2P(OiPr)3I
  129. Quantification of steric interactions in phosphine ligands from single crystal X-ray diffraction data. Crystal structures of (η5-C5H4Me)Mo(CO)2(PR3)I (R3=PhMe2, PhEt2, Et3)
  130. IN SITU AND POST REACTION COBALT-INCORPORATION INTO AMINOPROPYL-MODIFIED PERIODIC MESOPOROUS ORGANOSILICA MATERIALS
  131. Dicarbonyl(η5-1-carboxycyclopentadienyl)methyliron(II)
  132. Synthesis and study of ammonium oxalate sol–gel templated silica gels
  133. Fischer−Tropsch Results and Their Analysis for Reactor Synthesis
  134. Fischer–Tropsch synthesis over iron catalysts supported on carbon nanotubes
  135. The Effect of Hydrogen, Helium and Their Mixtures on the Synthesis of Carbon Nanotubes in a DC Arc‐Discharger
  136. The influence of gold on the optical properties of sol–gel derived titania
  137. The effect of gold on the phase transitions of titania
  138. trans-trans-trans-Bis(benzyl isocyanide-κC)dichlorobis(triphenylphosphine-κP)ruthenium(II) dichloromethane solvate
  139. Organometallic Precursors for Use as Catalysts in Carbon Nanotube Synthesis
  140. The effect of cobalt and zinc precursors on Co (10%)/Zn (x%)/TiO2 (x=0, 5) Fischer–Tropsch catalysts
  141. Structural comparison of Ru(Cl)2(tBuNC)2(PPh3)2 isomers and relevance to their solid state isomerization reaction
  142. Effect of Pretreatment Variables on the Reaction of Nitric Oxide (NO) with Au−TiO2:  DRIFTS Studies
  143. Surface and reactor study of the effect of zinc on titania-supported Fischer–Tropsch cobalt catalysts
  144. In Situ and Post Reaction Cobalt-Incorporation into Periodic Mesoporous Ethanesilica Materials
  145. Solid-state isomerisation reactions of (η5-C5H4R)M(CO)2(PR3′)I (M=W, Mo; R=tBu, Me; R′=Ph, OiPr3)
  146. A mechanism for the `solid–solid' reaction between Mn(CO)4(PPh3)Br and solid phosphines
  147. DRIFTS and Optical Microscopic Study of the Solventless Reaction between (η 5 -C 5 H 5 )M(CO) 3 CH 3 (M = Mo, W) and L (L = P( p -FC 6 H 4 ) 3 , P(C 6 H 5 ) 3 )
  148. Tricarbonyliodo(η5-methylcyclopentadienyl)tungsten
  149. Cobalt Ion Incorporation into Periodic Mesoporous Organosilica Materials Synthesized by Co-condensation of 1,2-Bistrimethoxysilylethane with 3-Glycidoxypropyltriethoxysilane
  150. A Systematic Study of the Use of DL-Tartaric Acid in the Synthesis of Silica Materials Obtained by the Sol-Gel Method
  151. Solid state isomerisation reactions of some ruthenium complexes
  152. Solvent-Free Organometallic Migratory Insertion Reactions
  153. Organometallic Chemistry: Structural Isomerization Reactions in Confined Environments.
  154. Solventless isomerisation reactions: A crystallographic and thermomicroscopic investigation of some six coordinate RuCl2L2L′2complexes
  155. Organometallic Chemistry: Structural Isomerization Reactions in Confined Environments
  156. THE INFLUENCE OF SYNTHESIS PARAMETERS ON THE PRODUCTION OF MULTIWALLED CARBON NANOTUBES BY THE FERROCENE CATALYZED PYROLYSIS OF TOLUENE
  157. Zirconium bis-cyclopentadienyl compounds
  158. Ion-Pair Structure as a Determinant of Solvent Dependence. Solvent-Selective Formation of tert -Butylbis(indenyl)phosphine and tert -Butyl( n -butyl)indenylphosphine
  159. The solid-state isomerization of cis- and trans-(η5-C5H4Me)Mo(CO)2(P(OiPr)3)I
  160. Solid-State Reaction Study of the Trans-to-cis Isomerization of (η 5 -C 5 H 4 Me)Re(CO)[P(OPh) 3 ]Br 2 :  A New Mechanism for the Isomerization Reaction
  161. The ruthenium catalysed synthesis of carbon nanostructures
  162. The Fe(CO)5 catalyzed pyrolysis of pentane: carbon nanotube and carbon nanoball formation
  163. Zirconium bis-indenyl compounds. The influence of substituents on the ethene polymerization behavior of 1- and 2-substituted (R-Ind)2ZrCl2/MAO catalysts
  164. Steric Parameters of Conformationally Flexible Ligands from X-ray Structural Data. 2. P(OR) 3 Ligands in Multiple Ligand Environments
  165. Effect of boron on the sulfur poisoning of Co/TiO2 Fischer–Tropsch catalysts
  166. Evidence for weak base site participation in the vapour phase methylation of catechol over solid base catalysts
  167. Zirconium bis-indenyl compounds. Synthesis and X-ray crystallography study of 1- and 2-substituted bis(R-indenyl)zirconium dichloride metallocenes
  168. Steric Parameters of Conformationally Flexible Ligands from X-ray Structural Data. 1. P(OR) 3 Ligands in Equivalent Ligand Environments
  169. The solid state reaction between RhX(PPh3)3 and (η5-C5H4Me)W (CO)3X (X = Cl, Br, I)
  170. Solid-State Reactivity and Single-Crystal Structure Studies. The Case of diag − lat Isomerization in [Re(η 5 -C 5 H 4 Me)(CO)(P(OPh 3 )Br 2 ] and [Re(η 5 -C 5 H 4 t Bu)(CO) 2 Br 2 ]
  171. Precipitated iron Fischer-Tropsch catalysts: The effect of sulfide ions
  172. The nature of the active phase in iron Fischer-Tropsch catalysts
  173. Influence of water/alkoxide ratio on the properties of Ru/Al2O3 xerogel catalysts
  174. The effect of sulfide ions on a precipitated iron Fischer–Tropsch catalyst
  175. The effect of boron on the catalyst reducibility and activity of Co/TiO2 Fischer–Tropsch catalysts
  176. Characterisation of Co/Mg/Al2O3 high pressure partial oxidation catalysts
  177. Catalysed synthesis of 4-heptanone from 1-butanol
  178. Organometallic chemistry in the solid state
  179. Thermal solid-state diag–lat isomerisation studies of (η5-C5H4R)Re(CO)(L)Br2:
  180. Synthesis and solid-state isomerisation reactions of diag- and lat-(η5-C5H4R)Re(CO)(L)X2
  181. Surface characterization of sulfided precipitated-iron Fischer-Tropsch catalysts by X-ray photoelectron spectroscopy
  182. Cone angle radial profiles
  183. Solid-State Photochemical diag − lat Isomerization of (η 5 -C 5 H 4 R)Re(CO)(L)X 2 on the Surface of Silica Gel
  184. Steric effects along ligands in bis(trimethylsilyl) cyclopentadienyl complexes of ruthenium: Analysis by radial profiles
  185. Substituted cyclopentadienyl ligands—10. Intramolecular steric interactions in [(η5-C5H3(SiMe3)2)Mo(CO)2(L)I]
  186. Multiply substituted cyclopentadienyl metal complexes: I. Solid-state and solution conformational studies on
  187. Analysis of Stereochemical Nonrigidity in Five-Coordinate Cyclopentadienylmetal Complexes by the Structure Correlation Method
  188. Phase-Dependent Diagonal and Lateral Isomerism of the Rhenium Complexes (η 5 -C 5 H 4 Me)Re(CO) 2 Br 2
  189. Solid angles III. The role of conformers in solid angle calculations
  190. The influence of cyclopentadienyl ring substituent steric and electronic effects on the ethylene-α-olefin copolymerisation behaviour of (CpR)2ZrCl2ethylalumoxane catalysts
  191. Solid angles 5. Chiral molecules and the case of face selectivity
  192. The influence of steric and electronic effects of substituents on the cyclopentadienyl ring on the behaviour of (CpR)2TiCl2 and (CpR)CpTiCl2/Et3Al2Cl3 catalysts in polymerization of ethene.
  193. Homogeneous group 4 metallocene ziegler-natta catalysts: The influence of cyclopentadienyl-ring substituents
  194. Electron inductive perturbation(s) of heteronuclear metal–metal bonds. Isocyanide and indenyl derivatives of the mixed metal dimers [(η 5 –C 5 H 5 )Fe(CO) 2 Re(CO) 5 ] and [MnRe(CO) 10 ]
  195. Solid angles I. The radial profile
  196. Quantification of Steric Effects in Organometallic Chemistry
  197. NMR parameters as steric probes for arylcyclopentadienyl iron complexes
  198. Isomers of Re(CO)3(CNtBu)LX: Synthetic strategies starting from MnRe(CO)8(CNtBu)L and Re(CO)4LX (X  halogen; L Group 15 donor ligand)
  199. Quantification of substituent and ligand size by the use of solid angles
  200. MnRe(CO)10: A review of the chemical and physical properties of a simple heterobimetallic non-bridged dimer
  201. Mono-substituted cyclopentadienyl half-sandwich transition metal complexes: ligand orientational effects
  202. Substituted cyclopentadienyl complexes
  203. Quantification of the influence of steric and electronic parameters on the ethylene polymerisation activity of (CpR)2ZrCl2/ethylaluminoxane Ziegler—Natta catalysts
  204. Is the metal-metal bond length in decacarbonylmanganeserhenium anomalous? X-ray crystal structure determination of MnRe(CO)9L (L = tert-BuNC, P(CH2C6H5)3) and MnRe(CO)8(CNBu-tert) (PPh3)
  205. An investigation of steric effects along a cyclopentadienyl substituent: a study by 1H, 13C and 29Si NMR spectroscopy of bis(trimethylsilyl)cyclopentadienyl iron complexes
  206. Site selectivity studies on heterobimetallic complexes: substitution reactions of (.eta.5-C5H5)MM'(CO)8 (M = Mo, W; M' = Mn, Re)
  207. Synthesis, substitution, and isomerization reactions of rhenium complexes trans-Re(CO)4LX (L = Group 15 donor ligands; X = Br, I)
  208. Cobalt/manganese oxide catalysts
  209. The synthesis and substitution reactions of CpM(CO)2(μ-RCCR)Co(CO)3 (M  MO, W; R  COOEt, COOMe)
  210. Steric measurement of substituted cyclopentadiene ligands and the synthesis and proton NMR spectral analysis of [(.eta.5-C5H4R)Fe(CO)(L)I] complexes with variable R
  211. Site selectivity studies on homonuclear metal dimer complexes: Substitution reactions of Re2(CO)9L
  212. Metal dimer chemistry: Me3NO induced substitution reactions of (η5-C5H5)MoMn(CO)8. X-ray structure determination of (η5-C5H5)MoMn(CO)7[P(OMe)3]
  213. The PdO catalysed reaction between Re(CO)5X (X  Cl, Br, I) and L (L  Group 15 donor ligand). Synthesis of Re(CO)4LX
  214. Steric control of a ruthenium-catalysed alkyne hydrogenation reaction
  215. Pd-catalysed carbonyl ligand substitution reactions of [Mn(CO)5Br] and [Re(CO)5Br] by isocyanides
  216. Steric effects associated with monosubstituted cyclopentadienyl transition-metal complexes. Synthesis and NMR spectroscopic and molecular mechanics study of [(.eta.5-C5H4Bu-tert)Fe(CO)(L)I] complexes and crystal structure determination of [(.eta.5-C5H4...
  217. Steric effects in [(η5-C5H4Me)Fe(CO)(L)(SnMe3)] complexes: a 119Sn NMR study
  218. Substituted cyclopentadienyl complexes
  219. Relating infra red spectral data to structure for a series of M2(CO)10?n(L)n complexes (M=Re, Mn; L=CNR, PR3; R=Alkyl, Aryl; n=1?4)
  220. Catalysed and uncatalysed substitution reactions of [W(CO)5(NCR)] (R = Me, Et)
  221. A mass spectral investigation of site selective CO loss from isotopically labelled [MnRe(CO)10]+
  222. Site selectivity studies on the catalyzed reaction of isotopically labeled MnRe(CO)10 with tert-butyl isocyanide. Implications for metal dimer and cluster reactions
  223. Substituted cyclopentadienyl complexes. Part 4. The catalysed synthesis and proton nuclear magnetic resonance spectra of [Ru(η5-C5H4Me)(CO)(L)I] and [Ru(η5-C9H7)(CO)(L)I](L = phosphine o...
  224. The crystal and molecular structure of [(η5-C5H5)Fe(CO)2Re(CO)5] and the reactions of [(η5-C9H7)Fe(CO)2Re(CO)5] with RNC (R = t-Bu, 2,6-Me2C6H3)
  225. Substituted cyclopentadienyl complexes. 5. Crystal and molecular structure of [(?5-C5H4Me)Fe(CO)(L)I] [L = 2,6-Me2C6H3NC, P(OMe)3, and P(C6H11)3]
  226. The crystal and molecular structure of [(η5-C5H5)Fe(CO)2Re(CO)5] and the reactions of [(η5-C9H7)Fe(CO)2Re(CO)5] with RNC (R = t-Bu, 2,6-Me2C6H3)
  227. Substituted cyclopentadienyl complexes
  228. Electronic spectra of isocyanide derivatives of decacarbonyldirhenium(0), Re2(CO10-n(CNR)n (R = alkyl, aryl; n = 1-4)
  229. Reactivation of a supported gold catalyst for acetylene hydrochlorination
  230. Substituted cyclopentadienyl complexes. I. The proton NMR spectra of [(.eta.5-C5H4Me)Fe(CO)(L)I] and [(.eta.5-C9H7)Fe(CO)(L)I]
  231. Metal dimers as catalysts
  232. Mixed-metal dimers. 3. Substitution reactions of [(.eta.5-C5H5)Fe(CO)2M(CO)5] (M = manganese, rhenium) and the x-ray crystal structure determination of [.eta.5-C5H5)Fe(CO)2M(CO)4(CNBu-tert)] (M = manganese, rhenium)
  233. Di- and poly-nuclear transition metal complexes as catalysts for the metal carbonyl substitution reaction. The role of supported metals and metal oxides as catalyst promoters
  234. Supported transition metals and metal oxides as catalysts for the metal carbonyl substitution reaction
  235. The hydrogenation of alkenes and alkynes in the presence of [Ru(COD)(PMe2Ph)3+: a comparison with the [RuH(PMe2Ph)5]+ alkyne hydrogenation catalyst
  236. Solid-state micro-Raman and Fourier transform infrared spectra of mixed carbonyl-isocyanide dirhenium(0) complexes, Re2(CO)10-n(CNR)n (n = 1-4)
  237. Mixed metal dimers
  238. Site selectivity studies on metal dimer complexes: the substitution reactions of [η5-C5H5)Fe(CO2)Mn(CO)5]
  239. The X-ray structural characterization and solution dynamics of bis[(μ-2,6-dimethylphenylisocyanide)- (cyclopentadienyl)(2,6-dimethylphenylisocyanide)iron(I)]
  240. The catalyzed substitution of CO by isonitriles on [M(CO)6](M = Cr, Mo, W): A versatile undergraduate inorganic laboratory experiment.
  241. Synthesis and characterisation of a series of vanadium isonitrile complexes
  242. The palladium(II) oxide-catalyzed reaction between decacarbonyldirhenium and isocyanides
  243. Systematic substitution of decacarbonyldirhenium. The crystal and molecular structure of a series of [Re2(CO)10-n(CNR)n] complexes (n = 1, R = t-Bu; n = 2, 4, R = 2,6-Me2C6H3; n = 3, R = Me)
  244. The palladium-catalysed reaction between [Re2(CO)10] and phosphines and the crystal and molecular structure of diaxial [Re2(CO)8(PMe2Ph)2]
  245. Metal dimers as catalysts
  246. Polymer-supported catalysts
  247. The use of mass spectrometry in the analysis of polystyrene supports and their chloromethylated derivatives
  248. A structural and kinetic investigation of the isomers of M2(CO)8(CNBut)2(M = Mn, Re)
  249. Synthesis and crystal structure of t-butylisocyanidenonacarbnyldirhenium(0): Re2(CO)9(CNBut)
  250. Metal dimers as catalysts. 5. Catalytic synthesis of [(.eta.6-arene)Cr(CO)2(CNR)] and the crystal and molecular structure of [(.eta.6-C6H5CO2Me)Cr(CO)2(CNCMe3)]
  251. Metal dimers as catalysts. Part 6. The use of [{Fe(CO)2(η5-C5H5)}2] as a catalyst in the metal carbonyl substitution reaction
  252. Supported metals and metal oxides as promoters for the metal dimer and cluster catalysed co substitution reaction
  253. Metal dimers as catalysts
  254. An investigation of the reaction between [{Fe(η5–C5H5)(CO)2}2] and aryl isonitriles
  255. Catalysed and non-catalysed reaction between [Fe(CO)5] and isonitriles
  256. The use of supported transition metals and metal oxides as catalysts for the metal carbonyl substitution reaction
  257. A synthetic route to M(CO)6−n(RNC)n (M = Cr, Mo, W; n = 1−6) from M(CO)6 and isonitriles
  258. Metal dimers as catalysts III *. The reaction between Fe(CO)5 and Group V donor ligands in the presence of [(η5-C5H4R)Fe(CO)2]2 (R = H, Me) and [(η5-C5Me5)Fe(CO)2]2 as catalyst
  259. The hydrogenation of olefins using a polymer supported ruthenium complex
  260. A mass spectral study of selected polymer supports and transition metal-supported reagents
  261. The reaction between [η5-C5H5M(CO)3]2, η5-C5H5M(CO)3I (M  Mo, W) and isonitriles
  262. The catalytic substitution of metal carbonyls and substituted metal carbonyls by isonitriles in the presence of rhodium(I) and polymer-supported rhodium(I) complexes
  263. The transition metal-catalysed reaction between Fe(CO)5 and group V donor ligands. A facile, high yield synthesis of Fe(CO)4PPh3
  264. [η5-C5H5Fe(CO)2]2; a versatile catalyst for ligand-replacement reactions on transition-metal complexes
  265. Mechanistic studies of oxidative addition to low-valent metal complexes. Mechanisms for addition of alkyl halides to iridium(I)
  266. Cobalt chloride: An inexpensive catalyst for the substitution of CO by isonitriles on M(CO)6 (M = Cr, Mo, W)
  267. The transition metal catalysed reaction between η5-C5H5Mo(CO)3I and isonitriles
  268. Metal carbonyl substitution reactions catalysed by transition metal complexes
  269. Activation of small molecules by transition metals. The reaction of CS2 with η5-C5H5Mo(CO)3R (R = Me, Et)
  270. Oxidative cyclodehydrogenation of aromatic bis(o-aminoanils)
  271. Metal-Catalyzed Synthesis ofcis-[Re(CO)4LI] [L = P(OMe)3, PMe2Ph, PPh3]
  272. Zero-Valent Isocyanide Complexes of Chromium, Molybdenum, and Tungsten
  273. Zerovalent Iron Isocyanide Complexes
  274. Tetracarbonyliron(O) Complexes Containing Group V Donor Ligands
  275. Zero-Valent Iron Isocyanide Complexes
  276. Tetracarbonyliron(0) Complexes Containing Group V Donor Ligands