By Lawrence J. Dunne, George Manos
Channels of nanotubular dimensions exist in a number of fabrics (examples are carbon nanotubes and the nanotubular channels of zeolites and zeotypes) and convey promise for various functions as a result of their special homes. certainly one of their most vital houses is their potential to adsorb molecules and those may perhaps exist in a number of stages.
"Adsorption and part Behaviour in Nanochannels and Nanotubes" presents a good overview of contemporary and present paintings on adsorption on nanometerials. it truly is a powerful selection of papers facing the adsorption and part behaviour in nanoporous fabrics from either experimental and theoretical perspectives.
"Adsorption and section Behaviour in Nanochannels and Nanotubes" specializes in carbon nanotubes in addition to zeolites and similar materials.
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Extra info for Adsorption and Phase Behaviour in Nanochannels and Nanotubes
These caps can be opened by experimental techniques. Carbon nanotubes have many possible applications in different fields, such as microelectronics, chemistry, polymer science, material science, and chemical engineering. Due to its hexagonal structure, it is possible to roll up graphene sheets in various ways and, therefore, various CNT structures exist. In general the structures can be divided into three main classes: “zigzag,” “armchair,” and “chiral” structures (see Fig. 9). The chirality (helicity) is defined by the chiral vector C = n1 aˆ 1 + n2 aˆ 2 with integers n1 ≥ n2 , and where aˆ 1 and aˆ 2 are vectors of the graphite unit cell.
Keil (MWCNT). A SWCNT is generated by folding back a graphene sheet on itself and forming a seamless cylinder with constant radius. Since no dangling bonds must be present, the SWCNTs are closed off at each end by hemispherical caps. These caps can be opened by experimental techniques. Carbon nanotubes have many possible applications in different fields, such as microelectronics, chemistry, polymer science, material science, and chemical engineering. Due to its hexagonal structure, it is possible to roll up graphene sheets in various ways and, therefore, various CNT structures exist.
Yang RT (1997) Gas Separation by Adsorption Processes. Imperial College Press, London 7. King CJ (1980) Separation Processes. McGraw Hill, New York 8. Seader JD, Henley EJ (2005) Separation Process Principles. J. Wiley, New York 9. Suzuki M (1990) Adsorption Engineering. Kodansha Elsevier, Tokyo 10. Mulder M (1991) Basic Principles of Membrane Technology. Kluwer Academic Publishers, Dordrecht 11. Gibbs JW (1948) Collected works. Yale University Press (2 Vols) 12. Dabrowski A (1999) in Dabrowski A (Ed) Adsorption and its Applications in Industry and Environmental Protection.
Adsorption and Phase Behaviour in Nanochannels and Nanotubes by Lawrence J. Dunne, George Manos