01071nam0 22003013i 450 UBO297687720231121125859.00415320216041532022420160219d2006 ||||0itac50 baenggbz01i xxxe z01nIntroducing electronic text analysisa practical guide for language and literary studiesSvenja AdolphsLondonNew YorkRoutledge2006XIII, 159 p.24 cm.Analisi del discorsoElaborazione datiFIRRMLC417884I401.421Adolphs, SvenjaUBOV092675070604158ITIT-0120160219IT-FR0017 Biblioteca umanistica Giorgio ApreaFR0017 NUBO2976877Biblioteca umanistica Giorgio Aprea 52MAG 5/1796 52LLC0000050895 VMN RS A 2017101020171010 52Introducing electronic text analysis1095440UNICAS05137nam 2200649 a 450 991078907110332120230725052616.01-283-23484-X9786613234841981-4329-36-3(CKB)3400000000016918(EBL)840580(OCoLC)756780561(SSID)ssj0000537238(PQKBManifestationID)12231893(PQKBTitleCode)TC0000537238(PQKBWorkID)10566450(PQKB)10571504(MiAaPQ)EBC840580(WSP)00007989(Au-PeEL)EBL840580(CaPaEBR)ebr10493519(CaONFJC)MIL323484(EXLCZ)99340000000001691820110712d2011 uy 0undur|n|---|||||txtccrGraphene and its fascinating attributes[electronic resource] /editors, Swapan K. Pati, Toshiaki Enoki, C.N.R. RaoSingapore ;Hackensack, N.J. World Scientificc20111 online resource (287 p.)"In November 2009, we had a successful India-Japan bilateral meeting on graphene at the JNCASR, Bangalore India"--Preface.981-4329-35-5 Includes bibliographical references.Preface; Contents; Chapter 1 Graphene: Synthesis, Functionalization and Properties C. N. R. Rao, K. S. Subrahmanyam, H. S. S. Ramakrishna Matte and A. Govindaraj; 1. Introduction; 2. Synthesis; 3. Functionalization and Solubilization; 4. Surface Properties; 5. Interaction with Electron Donor and Acceptor Molecules; 6. Decoration of Graphene with Metal Nanoparticles; 7. Magnetic Properties; 8. Inorganic Graphene Analogues; References; Chapter 2 Synthesis and Characterization of Exfoliated Graphene- and Graphene Oxide-Based Composites K. R. Rasmi, K. Chakrapani and S. Sampath; 1. Introduction2. Experimental Section2.1. Materials; 2.2. Synthesis of exfoliated graphene oxide; 2.3. Synthesis of EGO- Au-Ag alloy composites; 2.3. Synthesis of GO-Co3O4 composite; 2.4. Synthesis of EGO-RuOx composite; 2.5. Materials characterization; 3. Results and Discussion; 3.1. Electrochemical detection of dopamine using graphene-alloy nanocomposites; 3.2. Composites of exfoliated graphene oxide- and Co3O4 or RuOx; 4. Summary; Acknowledgments; References; Chapter 3 Singlet Open-Shell Character of Polyperiacenes A. Shimizu, A. Konishi, Y. Hirao and T. Kubo; 1. Introduction2. Theoretical Consideration on Open-Shell Character2.1. Clar's aromatic sextet valence bond model; 2.2. Quantum chemical method; 2.3. Aromaticity of each ring; 2.4. More extended ring system; 3. Experimental Elucidation of the Smallest Polyperiacene; 3.1. Geometrical consideration; 3.2. Physical properties; 4. Conclusion; Acknowledgments; References; Chapter 4 Doping of Graphene: A Computational Study A. K. Manna and S. K. Pati; 1. Introduction; 2. Computational Details; 3. Metal Nanoclusters Graphene Complexes; 4. Molecule-Graphene Complexes; 5. Summary; Acknowledgments; ReferencesChapter 5 Vibrations and Buckling of Uni-Axially Strained Graphene and BN-Monolayer: A First-Principles Study K. P. S. S. Hembram and U. V. Waghmare1. Introduction; 2. Methods; 3. Results; 3.1. Structure; 3.2. Phonons; 3.3. Electronic structure; 4. Conclusion; Acknowledgment; References; Chapter 6 Raman Spectroscopy of Graphene Edges R. Saito; 1. Introduction; 2. Method; 3. Calculated Raman Spectra; 4. Discussion and Summary; Acknowledgments; References; Chapter 7 Probing Single and Bilayer Graphene Field Effect Transistors by Raman Spectroscopy A. Das, B. Chakraborty and A. K. Sood1. Introduction2. Vibrational Properties of Graphene; 3. Raman Spectra of Graphene; 4. Tuning the Fermi Energy by Field Effect Gating; 4.1. Single layer top gating; 4.2. Bilayer top gating; 4.2.1. Conversion of VTG into EF; 4.3. Theoretical calculations; 4.3.1. Comparison between the experiment and theory (Bilayer); 4.3.2. Physical interpretation; 5. Conclusions; Acknowledgments; References; Chapter 8 Phonons and Electron-Phonon Interaction in Graphene and Nanotube T. Ando; 1. Introduction; 2. Monolayer Graphene and Nanotube; 3. Acoustic Phonon; 4. Optical Phonon; 5. Zone-Boundary Phonon6. Spontaneous Lattice DistortionGraphene, a single sheet of graphite, has an unconventional electronic structure that can be described in terms of massless Dirac Fermions. This interesting electronic feature is not only an important fundamental issue in condensed matter physics but alsoGrapheneCongressesGraphene530.41547.61Pati Swapan K326160Enoki Toshiaki328806Rao C. N. R(Chintamani Nagesa Ramachandra),1934-298534MiAaPQMiAaPQMiAaPQBOOK9910789071103321Graphene and its fascinating attributes3823065UNINA