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Preparation, Characterisation and Reactivity of Low Oxidation State d-Block Metal Complexes Stabilised by Extremely Bulky Amide Ligands - Jamie Hicks

Preparation, Characterisation and Reactivity of Low Oxidation State d-Block Metal Complexes Stabilised by Extremely Bulky Amide Ligands (eBook)

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2016 | 1st ed. 2017
XXVII, 196 Seiten
Springer Singapore (Verlag)
978-981-10-2905-9 (ISBN)
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This thesis describes the synthesis and characterization of numerous metal-metal bonded complexes that are stabilized by extremely bulky amide ligands.  It provides a comprehensive overview of the field, including discussions on groundbreaking complexes and reactions, before presenting in detail, exciting new findings from the PhD studies. The thesis appeals to researchers, professors and chemistry undergraduates with an interest in inorganic and/or organometallic chemistry.



Jamie Hicks received his first degree (MChem (Hons) with study in Australia) in 2011 from the University of Sheffield, Sheffield, UK, after completing his Masters research project with Dr Nathan Patmore.  In early 2012, Jamie moved to Australia to work under the supervision of Professor Cameron Jones at Monash University, Melbourne, researching low-coordination, low-oxidation d-block metal complexes stabilized by extremely bulky amide ligands.  He was awarded his PhD for this work in 2015, where he also received the Mollie Holman Medal for the best thesis in the Faculty of Science that year. Jamie then continued to work at Monash University, undertaking a post doctoral research fellow position under the joint supervision of Dr David Turner and Professor Stuart Batten, investigating amine functionalized metal organic frameworks.

This thesis describes the synthesis and characterization of numerous metal-metal bonded complexes that are stabilized by extremely bulky amide ligands.  It provides a comprehensive overview of the field, including discussions on groundbreaking complexes and reactions, before presenting in detail, exciting new findings from the PhD studies. The thesis appeals to researchers, professors and chemistry undergraduates with an interest in inorganic and/or organometallic chemistry.

Jamie Hicks received his first degree (MChem (Hons) with study in Australia) in 2011 from the University of Sheffield, Sheffield, UK, after completing his Masters research project with Dr Nathan Patmore.  In early 2012, Jamie moved to Australia to work under the supervision of Professor Cameron Jones at Monash University, Melbourne, researching low-coordination, low-oxidation d-block metal complexes stabilized by extremely bulky amide ligands.  He was awarded his PhD for this work in 2015, where he also received the Mollie Holman Medal for the best thesis in the Faculty of Science that year. Jamie then continued to work at Monash University, undertaking a post doctoral research fellow position under the joint supervision of Dr David Turner and Professor Stuart Batten, investigating amine functionalized metal organic frameworks.

General Introduction.- Extremely Bulky Amido d-Block Metal(II) Halide Complexes.- Preparation of Low Oxidation State Manganese Complexes Stabilised by Bulky Amide Ligands.- Preparation of Low Oxidation State Group 12 Complexes Stabilised by Bulky Amide Ligands.- Preparation of Low Oxidation State Cobalt Complexes Stabilised by Bulky Amide Ligands.- Preparation of Molybdenum Aminogermylene and Amidogermylyne Complexes.- Appendix.

Erscheint lt. Verlag 24.10.2016
Reihe/Serie Springer Theses
Springer Theses
Zusatzinfo XXVII, 196 p. 149 illus., 70 illus. in color.
Verlagsort Singapore
Sprache englisch
Themenwelt Naturwissenschaften Chemie Anorganische Chemie
Naturwissenschaften Chemie Organische Chemie
Naturwissenschaften Chemie Physikalische Chemie
Technik
Schlagworte Aminogermylyne Complexes • Cyclic Alkyl Amino Carbene (CAAC) • Dimeric Complexes • Heterobimetallic Complexes • Homonuclear Molecules • Inorganic Grignard Reagent • Low Coordinate Complexes • Metal Halide Complexes • Metal-Metal Bonded Complexes • Metal Tetrelyne Complexes
ISBN-10 981-10-2905-9 / 9811029059
ISBN-13 978-981-10-2905-9 / 9789811029059
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