By Eduardo J. Bottani, Juan M.D. Tascón
This e-book covers the main major elements of adsorption through carbons, trying to fill the prevailing hole among the fields of adsorption and carbonaceous fabrics. either easy and utilized points are provided. the 1st component to the publication introduces actual adsorption and carbonaceous fabrics, and is through a piece about the basics of adsorption by means of carbons. This results in improvement of a chain of theoretical suggestions that function an creation to the subsequent part within which adsorption is especially envisaged as a device to represent the porous texture and floor chemistry of carbons. specific realization is paid to a few novel nanocarbons, and the electrochemistry of adsorption via carbons is usually addressed. ultimately, numerous very important technological functions of fuel and liquid adsorption through carbons in components similar to environmental security and effort garage represent the final part of the publication.
- the 1st ebook to handle the interaction among carbonaceous fabrics and adsorption
- contains very important environmental purposes, equivalent to the removing of risky natural compounds from polluted atmospheres
- covers either gas-solid and liquid-solid adsorption
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Additional info for Adsorption by Carbons
Reference data for the adsorption of dichloromethane on carbon materials. Carbon, 39, 465–72. 28. M. W. (1989). Multilayer adsorption of nitrogen and alkanes by non-porous carbons and silicas. Pure Appl. , 61, 1836–40. 14 Chapter 1 Overview of Physical Adsorption by Carbons 29. B. and Quirke, N. (2001). Characterization of porous materials by gas adsorption: comparison of nitrogen at 77 K and carbon dioxide at 298 K on activated carbon. Langmuir, 17, 5011–20. 30. D. D. (2002). Analysis of adsorption data of graphitized thermal black with DFT-lattice gas theory.
V. (2002) Fractal analysis. In Handbook of Porous Solids (F. W. Sing, and J. Weitkamp, eds). Wiley/VCH, pp. 81–105. D. 1 Introduction The importance of adsorption for different carbon materials and, conversely, the contribution of each type of carbon to the field of adsorption is very different. This reflects the wide variability in properties of solid carbons [1, 2], which makes their surface properties important in very different fields and for different reasons. Thus, graphite, due to its relatively simple structure, has often been used as a model material to simulate the adsorption of different molecules on its surface, or to carry out adsorption measurements on a well-controlled surface.
References 13 4. G. (1932). Sorption of condensable vapors by porous solids. I. Applicability of the capillary theory. Trans. , 28, 645–57. 5. Brunauer, S. (1944). The Adsorption of Gases and Vapors. Oxford University Press. 6. , and Teller, E. (1938). Adsorption of gases in multimolecular layers. J. Am. Chem. , 60, 309–19. 7. J. W. (1982). Adsorption, Surface Area and Porosity. Academic. 8. M. (1955). A study of the porous structure of active carbons using a variety of methods. Q. Rev. Chem. , 9, 101–14.