“Despite the many exciting papers published since this book became available in 2012, this monograph will be a valuable addition to any library, an enjoyable page turner for aficionados of hydrocarbon chemistry, and a treasure trove for advanced students of organic chemistry.” (Chemistry International, 1 May 2013)
Open geodesic polyaromatic molecules, or “buckybowls”: new research findings, syntheses, and reactions
The day is rapidly approaching when scientists will have the tools necessary to exploit the tremendous potential of carbon nanotubes, fullerenes, and endohedral fullerene complexes of predetermined structures. Reviewing the latest research into geodesic polyaromatic molecules, this contributed work focuses on their synthesis and reactivity in metal-binding reactions. Readers will find expert coverage of all aspects of fullerene fragment chemistry, including current synthetic techniques, molecular geometry, solid state packing, physical properties, and new buckybowl-based molecules and materials. Readers will also discover the implications of the latest fundamental research examining open geodesic polyarenes that map onto the surfaces of fullerenes.
The first part of this book describes research on the synthesis, chemistry, properties, and potential applications of various fullerene fragments and their derivatives. The second half of the book focuses on the development of methods needed for the rational chemical synthesis of single-chirality, uniform-diameter carbon nanotubes. Individual topics include:
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Molecular clips and tweezers with corannulene pincers
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Anions of buckybowls
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Coordination preferences of bowl-shaped polyarenes
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Experimental and calculated properties of fullerene and nanotube fragments
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Synthesis and complexation of sumanenes
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Aromatic belts as sections of nanotubes
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Conjugated molecular belts based on 3-D benzannulene systems
Each chapter, written by one or more leading investigators in the field, presents the latest research breakthroughs in North America, Europe, and Asia, offering not only a review of the current literature, but also perspectives from the authors’ first-hand experience in the lab. As a result, readers can confidently turn to this book to advance their own investigations into the synthesis, reactions, and coordination chemistry of fullerene fragments and carbon nanotubes.
From the Back Cover
Open geodesic polyaromatic molecules, or “buckybowls”: new research findings, syntheses, and reactions
The day is rapidly approaching when scientists will have the tools necessary to exploit the tremendous potential of carbon nanotubes, fullerenes, and endohedral fullerene complexes of predetermined structures. Reviewing the latest research into geodesic polyaromatic molecules, this contributed work focuses on their synthesis and reactivity in metal-binding reactions. Readers will find expert coverage of all aspects of fullerene fragment chemistry, including current synthetic techniques, molecular geometry, solid state packing, physical properties, and new buckybowl-based molecules and materials. Readers will also discover the implications of the latest fundamental research examining open geodesic polyarenes that map onto the surfaces of fullerenes.
The first part of this book describes research on the synthesis, chemistry, properties, and potential applications of various fullerene fragments and their derivatives. The second half of the book focuses on the development of methods needed for the rational chemical synthesis of single-chirality, uniform-diameter carbon nanotubes. Individual topics include:
-
Molecular clips and tweezers with corannulene pincers
-
Anions of buckybowls
-
Coordination preferences of bowl-shaped polyarenes
-
Experimental and calculated properties of fullerene and nanotube fragments
-
Synthesis and complexation of sumanenes
-
Aromatic belts as sections of nanotubes
-
Conjugated molecular belts based on 3-D benzannulene systems
Each chapter, written by one or more leading investigators in the field, presents the latest research breakthroughs in North America, Europe, and Asia, offering not only a review of the current literature, but also perspectives from the authors’ first-hand experience in the lab. As a result, readers can confidently turn to this book to advance their own investigations into the synthesis, reactions, and coordination chemistry of fullerene fragments and carbon nanotubes.
About the Author
Marina A. Petrukhina received her PhD from Moscow State University in 1988 and is a Professor in the Department of Chemistry at the University of Albany. She has published over 120 research papers in scientific journals. In 2006, she received the NSF Career Award, a five-year grant to explore the reactivity and coordination limits of open geodesic polyaromatic hydrocarbons (buckybowls).
Lawrence T. Scott received his PhD from Harvard University in 1970 and is a Professor at Boston College, where he occupies the Louise and Jim Vanderslice and Family Chair in Chemistry. He has published more than 200 research papers in scientific journals and currently serves on the editorial advisory boards for Polycyclic Aromatic Compounds and The Journal of Organic Chemistry. In 2011, he received the George A. Olah Award in Hydrocarbon Chemistry from the American Chemical Society.
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