M
Malcolm L. H. Green
Researcher at University of Oxford
Publications - 800
Citations - 32440
Malcolm L. H. Green is an academic researcher from University of Oxford. The author has contributed to research in topics: Carbon nanotube & Cyclopentadienyl complex. The author has an hindex of 82, co-authored 800 publications receiving 31121 citations. Previous affiliations of Malcolm L. H. Green include Gas Technology Institute & University of Illinois at Urbana–Champaign.
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Synthesis of molybdenum arene complexes containing amide-derived heterodifunctional P,O ligands
TL;DR: The reactions of amide-derived ligands Ph2PN(R)C(O)CH3 (R = H, CH3) with molybdenum arene complexes as mentioned in this paper have been investigated.
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Low-valent niobium chemistry: synthesis of bent bis-arene niobium alkyl and halide complexes, half-sandwich mono-arene niobium tertiary phosphine compounds, and related studies
TL;DR: In this paper, the syntheses of the new compounds [Nb(η-C6H5Me)2X] (X = Me, Ph, Br, I, I), [nb(c6h5Me)(PMe3)3X) (X=H, SiMe3), [ nb( c6h9Me)(C7H9), PMe3] (H,SiMe3, I) and [nbin(c7h7), C7H7), CO)2(PMe
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One-dimensional antiferromagnetic cycloheptatrienyl molybdenum and tungsten compounds
TL;DR: In this article, the crystal and molecular structures of [Mo(η-C7H7)(MeCN)l2]1 have been determined, and confirm the one-dimensional structure.
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Effect of the Addition of Antifoulant Agents on the Deactivation of NiMoP/Al2O3 Catalysts for Hydrotreating of Residuum
Tiancun Xiao,Ji-Xin Su,Hai-Tao Wang,Yu-Li Lu,Zi-Feng Yan,Andrew P. E. York,John B. Claridge,Jeremy Sloan,Malcolm L. H. Green +8 more
TL;DR: In this article, the effect of different antifoulant agents on the performance of a NiMoP/Al2O3 catalyst for hydrotreating of residuum was evaluated in an industrial scale reactor.
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η-Arene–rhenium chemistry: activation of sp3 carbon–hydrogen bonds of alkylbenzenes by rhenium; formation of binuclear µ-alkylidene derivatives
TL;DR: In this article, the barriers to rotation of the aryl groups of the µ-CHR′ system were found to be ΔG‡= 55.1, 64.8, and 78.0 kJ mol−1 for R′= Ph, p-MeC6H4, and 3,5-Me2C6h3 respectively.