Structural codes vis-a-vis structural counts, like polynomials of a molecular graph, are important in computing graph-theoretical descriptors which are commonly known as topological indices. These indices are most important for characterizing carbon nanotubes (CNTs). In this paper we have computed Sadhana index (Sd) for phenylenes and their hexagonal squeezes using structural codes (counts). Sadhana index is a very simple W-Sz-PItype topological index obtained by summing the number of edges on both sides of the elementary cuts of benzenoid graphs. It has the similar discriminating power as that of the Weiner (W)-, Szeged (Sz)-, and PI-indices.
JOHN, P., AZIZ, S., & KHADIKAR, P. (2010). Use of Structure Codes (Counts) for Computing Topological Indices of Carbon Nanotubes: Sadhana (Sd) Index of Phenylenes and its Hexagonal Squeezes. Iranian Journal of Mathematical Chemistry, 1(Issue 1 (Special Issue on the Role of PI Index in Nanotechnology)), 91-94. doi: 10.22052/ijmc.2010.5138
MLA
P. E. JOHN; S. AZIZ; P. V. KHADIKAR. "Use of Structure Codes (Counts) for Computing Topological Indices of Carbon Nanotubes: Sadhana (Sd) Index of Phenylenes and its Hexagonal Squeezes", Iranian Journal of Mathematical Chemistry, 1, Issue 1 (Special Issue on the Role of PI Index in Nanotechnology), 2010, 91-94. doi: 10.22052/ijmc.2010.5138
HARVARD
JOHN, P., AZIZ, S., KHADIKAR, P. (2010). 'Use of Structure Codes (Counts) for Computing Topological Indices of Carbon Nanotubes: Sadhana (Sd) Index of Phenylenes and its Hexagonal Squeezes', Iranian Journal of Mathematical Chemistry, 1(Issue 1 (Special Issue on the Role of PI Index in Nanotechnology)), pp. 91-94. doi: 10.22052/ijmc.2010.5138
VANCOUVER
JOHN, P., AZIZ, S., KHADIKAR, P. Use of Structure Codes (Counts) for Computing Topological Indices of Carbon Nanotubes: Sadhana (Sd) Index of Phenylenes and its Hexagonal Squeezes. Iranian Journal of Mathematical Chemistry, 2010; 1(Issue 1 (Special Issue on the Role of PI Index in Nanotechnology)): 91-94. doi: 10.22052/ijmc.2010.5138
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