By Richard C. Alkire, Philip N. Bartlett, Jacek Lipkowski
The booklet units the normal on carbon fabrics for electrode layout. For the 1st time, the top specialists during this box summarize the training thoughts and particular features including validated and power purposes of the differing kinds of carbon-based electrodes. An introductory bankruptcy at the houses of carbon including chapters at the electrochemical features and houses of the various differences of carbon comparable to carbon nanotubes, graphene, carbon fiber, diamond or hugely ordered pyrolytic graphite give you the reader with the fundamentals in this interesting and ubiquitous electrode fabric. state-of-the-art applied sciences akin to carbon electrodes in effective supercapacitors, Li-ion batteries and gasoline cells, or electrodes ready via screen-printing are mentioned, giving a whole yet concise assessment concerning the subject. The essentially established publication is helping novices to understand simply the rules of carbon-based electrodes, whereas researchers in primary and utilized electrochemistry will locate new principles for extra learn on comparable key applied sciences
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18. 19. 20. 21. 22. 23. 24. Guinea, F. (2006) Dynamical polarization of graphene at ﬁnite doping. New J. , 8(12), 318– 318. , and van der Marel, D. (2008) Universal optical conductance of graphite. Phys. Rev. , 100(11), 117401. K. (2008) Fine structure constant deﬁnes visual transparency of graphene. Science, 320(5881), 1308. W. D. (1976) Solid State Physics, Cengage Learning. N. (2012) Gate-tuning of graphene plasmons revealed by infrared nano-imaging. Nature, 487(7405), 82– 85. , and Wang, F.
131. 132. 133. doped diamond layers in aqueous electrolyte solution. Electrochim. Acta, 87, 518– 525. , and Coluzza, C. (2001) Eﬀect of moderate heating on the negative electron aﬃnity and photoyield of air-exposed hydrogenterminated chemical vapor deposited diamond. J. Appl. , 89(12), 8259. , and Okano, K. (2009) Electron emission from conduction band of diamond with negative electron aﬃnity. Phys. Rev. B, 80(16), 165321. , and Wrachtrup, J. (2006) Room-temperature coherent coupling of single spins in diamond.
Kominkova, Z. and Kalbac, M. (2014) Extreme electrochemical doping of a graphene–polyelectrolyte heterostructure. , 4(22), 11311. 21 22 1 Properties of Carbon: An Overview 4. K. S. (2007) 5. 6. 7. 8. 9. 10. 11. 12. 13. 14. The rise of graphene. Nat. , 6(3), 183–191. Nezich, D. and Palacios, T. (2009) Graphene frequency multipliers. , 30(5), 547– 549. , and Palacios, T. (2010) Graphene-based ambipolar RF mixers. , 31(9), 906– 908. M. (2010) Atomic layers of hybridized boron nitride and graphene domains.
Advances in Electrochemical Science and Engineering/Electrochemistry of Carbon Electrodes by Richard C. Alkire, Philip N. Bartlett, Jacek Lipkowski