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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Vapour synthesis: A new technique in synthetic chemistry
Dennis Young,Malcolm L. H. Green +1 more
TL;DR: Vapour synthesis is the use, as reagents, of vapours which are formed at high temperatures as discussed by the authors, typically, vapours such as those of transition metal atoms are brought into contact on a cold surface with a substrate, for example an unsaturated hydrocarbon.
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Formation of a di-iron-µ-vinylidine group from ethylene: synthesis and crystal structure of {MeSi(CH2PMe2)3}Fe(µ-CCH2)(µ-H)2Fe{(PMe2CH2)3SiMe}
TL;DR: Treatment of (η4-C6H6)Fe, tmps = MeSi(CH2PMe2)3, with ethylene, or sodium amalgam reduction of (tmps)FeCl2 in the presence of ethylene as mentioned in this paper gives the di-iron-µ-vinylidene compound (tmps) Fe(µ -CCH2)(µ −H)2Fe(tmps), whose crystal structure has been determined.
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Dalton communications. ansa-Bridged tris(cyclopentadienyl) compounds of zirconium and hafnium: X-ray crystal structures of [M{Me2C(η5-C5H4)2}(η5-C5H5)Cl](M = Zr or Hf)
TL;DR: In this paper, the ansa-bridged compounds [M{Me2C(η5-C5H4)2} (η 5-C 5H5)Cl] and [M = Zr or Hf] have been synthesized and their molecular structures determined by X-ray crystallography.
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Arene molybdenum chemistry: tertiary-phosphine and -phosphite derivatives and related phosphine-hydrides
TL;DR: Treatment of bis(benzene)molybdenum with tertiary-phosphines or -phosphites gives the derivatives C6H6MoL3 as discussed by the authors.
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Ferromagnetism of double-walled carbon nanotubes
TL;DR: In this article, the ferromagnetic properties of carbon nanotubes were investigated and it was shown that the origin of FM in carbon Nanotubes is mainly from the hydrogen chemisorptions induced in the process of acid purification.