Physics and chemistry of graphene : graphene to nanographene /
Physics and chemistry of graphene : graphene to nanographene /
edited by Toshiaki Enoki.
- Second edition.
- 1 online resource
Graphene has been attracting growing attentions in physics, chemistry, and device applications after the discovery of micromechanically cleaved graphene sheet by A. Geim and K. Novoselov, who were awarded the 2010 Nobel Prize in Physics. The electronic structure of graphene, which is described in terms of massless Dirac fermions, brings about unconventional electronic properties, which are not only an important basic issue in condensed matter physics but also a promising target of cutting-edge electronics/spintronics device applications. Meanwhile, from chemistry aspect, graphene is the extreme of condensed polycyclic hydrocarbon molecules extrapolated to infinite size. Here, the concept on aromaticity, which organic chemists utilize, is applicable. Interesting issues appearing between physics and chemistry are pronounced in nanosized graphene (nanographene), as we recognize the importance of the shape of nanographene in understanding its electronic structure. This book comprehensively discusses the fundamental issues related to the electronic, magnetic, and chemical properties of condensed polycyclic hyodrocarbon molecules, nanographene, and graphene.
9780429662799 0429662793 9780429665516 0429665512 9780429660078 0429660073 0429023316 9780429023316
10.1201/9780429023316 doi
Graphene.
Nanostructured materials.
SCIENCE / Chemistry / Physical & Theoretical
SCIENCE / Nanostructures
SCIENCE / Life Sciences / General
TA455.G65
546.681
Theory of electronic states and transport in graphene. Experimental approaches to graphene; electron transport for device applications. Electronic properties of nanographene. Chemistry of polycyclic aromatic hydrocarbons. Experimental approach to electronic and magnetic properties of nanographene. Current Topics: Quantum Hall effect and spin-orbit interaction. Valleytronics. Optical properties of nanographene. Twisted bilayer graphene. Epitaxial graphene.
Graphene has been attracting growing attentions in physics, chemistry, and device applications after the discovery of micromechanically cleaved graphene sheet by A. Geim and K. Novoselov, who were awarded the 2010 Nobel Prize in Physics. The electronic structure of graphene, which is described in terms of massless Dirac fermions, brings about unconventional electronic properties, which are not only an important basic issue in condensed matter physics but also a promising target of cutting-edge electronics/spintronics device applications. Meanwhile, from chemistry aspect, graphene is the extreme of condensed polycyclic hydrocarbon molecules extrapolated to infinite size. Here, the concept on aromaticity, which organic chemists utilize, is applicable. Interesting issues appearing between physics and chemistry are pronounced in nanosized graphene (nanographene), as we recognize the importance of the shape of nanographene in understanding its electronic structure. This book comprehensively discusses the fundamental issues related to the electronic, magnetic, and chemical properties of condensed polycyclic hyodrocarbon molecules, nanographene, and graphene.
9780429662799 0429662793 9780429665516 0429665512 9780429660078 0429660073 0429023316 9780429023316
10.1201/9780429023316 doi
Graphene.
Nanostructured materials.
SCIENCE / Chemistry / Physical & Theoretical
SCIENCE / Nanostructures
SCIENCE / Life Sciences / General
TA455.G65
546.681