By Kazuyoshi Tanaka; S Iijima
Carbon Nanotubes and Graphene is a well timed moment variation of the unique Science and expertise of Carbon Nanotubes. up-to-date to incorporate improved insurance of the coaching, purification, structural characterization, and customary software components of unmarried- and multi-walled CNT constructions, this paintings compares, contrasts, and, the place acceptable, unitizes CNT to graphene. This a lot multiplied moment variation reference helps wisdom discovery, creation of impactful carbon study, encourages transition among examine fields, and aids the formation of emergent purposes. New chapters surround fresh advancements within the theoretical remedies of digital and vibrational constructions, and magnetic, optical, and electric solid-state homes, offering an important base to analyze. present and strength purposes of either fabrics, together with the chance for large-scale synthesis of graphene, organic constructions, and versatile electronics, also are seriously mentioned.
- Updated dialogue of houses, constitution, and morphology of organic and versatile digital purposes aids basic wisdom discovery
- Innovative parallel specialize in nanotubes and graphene allows you to study from the successes and screw ups of, respectively, mature and emergent accomplice learn disciplines
- High-quality figures and tables on actual and mathematical purposes expertly summarize key info – crucial if you would like fast, severely suitable data
Read Online or Download Carbon nanotubes and graphene PDF
Best electronics books
Bestellen Sie jetzt und wir liefern, sobald der Artikel verfügbar ist. Sie erhalten von uns eine e mail mit dem voraussichtlichen Lieferdatum, sobald uns diese details vorliegt. Ihr Konto wird erst dann belastet, wenn wir den Artikel verschicken.
This ebook goals at giving a common account of the foundations of valency and molecular constitlltion, based on tI1e Rutherforcl-Bohr atom. In dev'eloping the speculation of valency there are classes open to the chemist. He might use symbols ,with no convinced actual connotation to specific the reacti,rity of the atoms in a molecule, and will go away it to the subseqtlent growth of technological know-how to find what realities those symbols signify: or he may perhaps undertake the strategies of atomic physics-electrons, nuclei, and orbits-and try and clarify the chemical proof when it comes to those.
This complement comprises labored out suggestions to the bankruptcy finish challenge units present in electronic conversation, moment version, ISBN 0-7923-9391-0.
Extra resources for Carbon nanotubes and graphene
27] Nish A, Hwang J, Doig J, Nicholas R. Highly selective dispersion of single-walled carbon nanotubes using aromatic polymers. Nat Nanotechnol 2007;2:641–6.  Ju S, Doll J, Sharma I, Papadimitrakopoulos F. Selection of carbon nanotube with specific chiralities using helical assemblies of flavin mononucleotide. Nat Nanotechnol 2008;3:356–62.  Moshammer K, Hennrich F, Kappes M. Selective suspension in aqueous sodium dodecyl sulfate according to electronic structure type allows simple separation of metallic from semiconducting single-wall carbon nanotubes.
Separation of metallic and semiconducting single-wall carbon nanotube solution by vertical electric field. J Phys Chem C 2011;115:22827–32.  Tanaka T, Jin H, Miyata Y, Fujii S, Suga H, Naitoh Y, et al. Simple and scalable gel-based separation of metallic and semiconducting carbon nanotubes. Nano Lett 2009;9:1497–500.  Liu H, Tanaka T, Urabe Y, Kataura H. High-efficiency single-chirality separation of carbon nanotubes using temperature-controlled gel chromatography. Nano Lett 2013;13:1996–2003.
Highly stabilized conductivity of metallic singlewall carbon nanotube thin films. J Phys Chem C 2008;112:3591–6.  Iijima S, Ichihashi T. Single-shell carbon nanotubes of 1-nm diameter. Nature 2003;363:603–5.  Hersam M. Progress towards monodisperse single-walled carbon nanotubes. Nat Nanotechnol 2008;3:387–94.  Wang Y, Shan H, Hauge R, Pasquali M, Smalley R. A highly selective, one-pot purification method for single-walled carbon nanotubes. J Phys Chem B 2007;111:1249–52.  Yang C, Kaneko K, Yudasaka M, Iijima S.