By Dale A. C. Brownson
Graphene has grasped the eye of academia and world-wide due its designated constitution and mentioned effective houses. This used to be mirrored through the 2010 Nobel Prize in Physics being presented for groundbreaking experiments concerning the two-dimensional fabric graphene. One specific sector within which graphene has been widely explored is electrochemistry the place it truly is almost certainly the world’s thinnest electrode fabric. Graphene has been greatly suggested to accomplish beneficially over current electrode fabrics while used inside of power creation or garage units and whilst utilised to manufacture electrochemical sensors.
This e-book charts the heritage of graphene, depicting the way it has made an effect within the box of electrochemistry and the way scientists are attempting to resolve its exact homes, which has, unusually resulted in its fall from grace in a few parts. A primary creation into Graphene Electrochemistry is given, by which readers can collect the instruments required to successfully clarify and interpret the significant array of graphene literature. The readers is supplied with the suitable insights required for you to layout and enforce diligent electrochemical experiments whilst applying graphene as an electrode material.
Read Online or Download The Handbook of Graphene Electrochemistry PDF
Similar physical & theoretical books
Overlaying the appliance of computer-aided the right way to chemical difficulties, resembling structural databases, spectra interpretation, predicting chemical houses and molecular shapes, this four-volume paintings presents either beginners and complicated clients in addition to academics with a profound and entire evaluation of this more and more very important box.
This unified therapy introduces upper-level undergraduates and graduate scholars to the strategies and techniques of recent molecular spectroscopy and their functions to quantum electronics, lasers, and similar optical phenomena. beginning with a evaluate of the prerequisite quantum mechanical historical past, the textual content examines atomic spectra and diatomic molecules, together with the rotation and vibration of diatomic molecules and their digital spectra.
Content material: From electrochemistry to molecular-level examine at the solid-liquid electrochemical interface : an summary / Gregory Jerkiewicz -- Molecular dynamics simulation of interfacial electrochemical strategies : electrical double layer screening / Michael R. Philpott and James N. Glosli -- desktop simulation of the constitution and dynamics of water close to steel surfaces / E.
Additional info for The Handbook of Graphene Electrochemistry
The electrochemical process as expressed in Eq. 1) involves the transfer of charge across the interfacial region of a metallic electrode, termed (m) to indicate the source of electrons, and a solution phase (aq) species. The electrochemical reaction described in Eq. 1) only proceeds once a suitable electrode is placed into the solution phase, which acts as a source or sink of electrons. It is important to realise that this reaction involves the transfer of charged species, viz electrons, between the electrode surface (m), and the solution phase species (aq), hence the electrode reaction is an interfacial process.
Whiteway, V. Yu, ISRN Condens. Matter Phys. 2012, 501686 (2012) 53. A. C. Hersam, Nano Lett. 9, 4031–4036 (2009) 54. Web-Resource. com. Accessed 28 Feb 2012 55. S. E. Offeman, J. Am. Chem. Soc. 80, 1339 (1958) 56. Y. Shao, J. Wang, H. Wu, J. A. Aksay, Y. Lin, Electroanalysis 22, 1027–1036 (2010) 57. Web-Resource. com. Accessed 28 Feb 2012 58. A. Reina, X. Jia, J. Ho, D. Nezich, H. Son, V. S. Dresselhaus, J. Kong, Nano Lett. 9, 30–35 (2009) 59. X. Li, Y. Zhu, W. Cai, M. Borysiak, B. Han, D. D. Piner, L.
Chem. Soc. 133, 2816–2819 (2011) 62. H. Kim, C. R. C. Oberg, L. Artiglia, S. F. Hirjibehedin, M. Chhowalla, E. Saiz, ACS Nano 6, 3614–3623 (2012) 63. S. Kim, Y. Zhao, H. Y. M. S. -H. Ahn, P. -Y. H. Hong, Nature 457, 706–710 (2009) 64. A. Reina, S. Thiele, X. Jia, S. S. A. Schaefer, J. Kong, Nano Res. 2, 216–509 (2009) 65. -H. -H. Lee, Appl. Phys. Lett. 96, 083101 (2010) 66. P. Jones, K. Jurkschat, A. E. Banks, J. Iran. Chem. Soc. 5, 279–285 (2008) 67. J. Cote, J. C. Tung, J. Luo, F. Kim, J. Huang, Pure Appl.
The Handbook of Graphene Electrochemistry by Dale A. C. Brownson