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Christopher J. Adams
Researcher at University of Bristol
Publications - 101
Citations - 4426
Christopher J. Adams is an academic researcher from University of Bristol. The author has contributed to research in topics: Ligand & Crystal structure. The author has an hindex of 25, co-authored 101 publications receiving 3913 citations. Previous affiliations of Christopher J. Adams include Bowling Green State University & Science and Technology Facilities Council.
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Journal ArticleDOI
Mechanochemistry: opportunities for new and cleaner synthesis
Stuart L. James,Christopher J. Adams,Carsten Bolm,Dario Braga,Paul Collier,Tomislav Friščić,Fabrizia Grepioni,Kenneth D. M. Harris,Geoff Hyett,William Jones,Anke Krebs,James Mack,Lucia Maini,A. Guy Orpen,Ivan P. Parkin,William C. Shearouse,Jonathan W. Steed,Daniel C. Waddell +17 more
TL;DR: Concentrating on recent advances, this article covers industrial aspects, inorganic materials, organic synthesis, cocrystallisation, pharmaceutical aspects, metal complexes, supramolecular aspects and characterization methods.
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Friedel–Crafts reactions in room temperature ionic liquids
TL;DR: Friedel-Crafts reactions in the ionic liquid system 1-methyl-3-ethylimidazolium chloride-aluminium(III) chloride can be performed with excellent yields and selectivities, and in the case of anthracene, have been found to be reversible as discussed by the authors.
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Iron(I) in Negishi Cross-Coupling Reactions
Christopher J. Adams,Robin B. Bedford,Emma Carter,Nicholas J. Gower,Mairi F. Haddow,Jeremy N. Harvey,Michael Huwe,M. Ángeles Cartes,Stephen M. Mansell,Carla Mendoza,Damien Martin Murphy,Emily C. Neeve,Joshua Nunn +12 more
TL;DR: The importance of Fe(I) in Negishi cross-coupling reactions with arylzinc reagents and the isolation of catalytically competent Fe( I) intermediates are demonstrated and it seems that 7 is an off-cycle species.
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Solid state interconversions of coordination networks and hydrogen-bonded salts
TL;DR: Thermal or chemical treatment of crystalline 4,4-bipyridinium salts of [MCl4]2- (M=Co, Zn, Fe, or Pt) leads to HCl loss and formation of coordination network solids [{MCl2(4,4,bipy)}n].