@article {
author = {Madanshekaf, A. and Moradi, M.},
title = {The First Geometric–Arithmetic Index of Some Nanostar Dendrimers},
journal = {Iranian Journal of Mathematical Chemistry},
volume = {5},
number = {Supplement 1},
pages = {1-6},
year = {2014},
publisher = {University of Kashan},
issn = {2228-6489},
eissn = {2008-9015},
doi = {10.22052/ijmc.2014.5541},
abstract = {Dendrimers are highly branched organic macromolecules with successive layers or generations of branch units surrounding a central core [1,4]. These are key molecules in nanotechnology and can be put to good use. In this article, we compute the first geometricarithmetic index of two infinite classes of dendrimers.},
keywords = {Nanostar dendrimer,The first geometric-arithmetic index},
url = {https://ijmc.kashanu.ac.ir/article_5541.html},
eprint = {https://ijmc.kashanu.ac.ir/article_5541_b9ad2e135053d1febb7d27424326357c.pdf}
}
@article {
author = {Mehranian, Z.},
title = {The Laplacian Polynomial and Kirchhoff Index of the k-th Semi Total Point Graphs},
journal = {Iranian Journal of Mathematical Chemistry},
volume = {5},
number = {Supplement 1},
pages = {7-15},
year = {2014},
publisher = {University of Kashan},
issn = {2228-6489},
eissn = {2008-9015},
doi = {10.22052/ijmc.2014.6858},
abstract = {The k-th semi total point graph of a graph G, , is a graph obtained from G by adding k vertices corresponding to each edge and connecting them to the endpoints of edge considered. In this paper, a formula for Laplacian polynomial of in terms of characteristic and Laplacian polynomials of G is computed, where is a connected regular graph.The Kirchhoff index of is also computed.},
keywords = {Resistance distance,Kirchhoff index,Laplacian specturam,Derived graph},
url = {https://ijmc.kashanu.ac.ir/article_6858.html},
eprint = {https://ijmc.kashanu.ac.ir/article_6858_49f40547a27c813e453cdcfff61b24ed.pdf}
}
@article {
author = {Sharifi, H. and Fath-Tabar, G. H.},
title = {Flow Polynomial of some Dendrimers},
journal = {Iranian Journal of Mathematical Chemistry},
volume = {5},
number = {Supplement 1},
pages = {17-20},
year = {2014},
publisher = {University of Kashan},
issn = {2228-6489},
eissn = {2008-9015},
doi = {10.22052/ijmc.2014.7591},
abstract = {Suppose G is an nvertex and medge simple graph with edge set E(G). An integervalued function f: E(G) → Z is called a ﬂow. Tutte was introduced the ﬂow polynomial F(G, λ) as a polynomial in an indeterminate λ with integer coefficients by F(G,λ) In this paper the Flow polynomial of some dendrimers are computed.},
keywords = {Flow polynomial,Dendrimer,Graph},
url = {https://ijmc.kashanu.ac.ir/article_7591.html},
eprint = {https://ijmc.kashanu.ac.ir/article_7591_08263a76931061fd7e4ced581cb66dad.pdf}
}
@article {
author = {Alikhani, S. and Mahmoudi, E.},
title = {The Neighbourhood Polynomial of some Nanostructures},
journal = {Iranian Journal of Mathematical Chemistry},
volume = {5},
number = {Supplement 1},
pages = {21-25},
year = {2014},
publisher = {University of Kashan},
issn = {2228-6489},
eissn = {2008-9015},
doi = {10.22052/ijmc.2014.7618},
abstract = {The neighbourhood polynomial G , is generating function for the number of faces of each cardinality in the neighbourhood complex of a graph. In other word $N(G,x)=sum_{Uin N(G)} x^{|U|}$, where N(G) is neighbourhood complex of a graph, whose vertices are the vertices of the graph and faces are subsets of vertices that have a common neighbour. In this paper we compute this polynomial for some nanostructures.},
keywords = {Neighbourhood Polynomial,Dendrimer nanostar},
url = {https://ijmc.kashanu.ac.ir/article_7618.html},
eprint = {https://ijmc.kashanu.ac.ir/article_7618_915a872c50324158cd249be6c4db13ad.pdf}
}
@article {
author = {Marandi, A. and Nejah, A. and Behmaram, A.},
title = {Perfect Matchings in Edge-Transitive Graphs},
journal = {Iranian Journal of Mathematical Chemistry},
volume = {5},
number = {Supplement 1},
pages = {27-33},
year = {2014},
publisher = {University of Kashan},
issn = {2228-6489},
eissn = {2008-9015},
doi = {10.22052/ijmc.2014.7772},
abstract = {We find recursive formulae for the number of perfect matchings in a graph G by splitting G into subgraphs H and Q. We use these formulas to count perfect matching of P hypercube Qn. We also apply our formulas to prove that the number of perfect matching in an edge-transitive graph is , where denotes the number of perfect matchings in G, is the graph constructed from by deleting edges with an end vertex in {u,v}.},
keywords = {perfect matching,Edge-transitive graph},
url = {https://ijmc.kashanu.ac.ir/article_7772.html},
eprint = {https://ijmc.kashanu.ac.ir/article_7772_6c1386b641e42586265ac97c82fcede7.pdf}
}
@article {
author = {Yarahmadi, Z. and Moradi, S.},
title = {The Center and Periphery of Composite Graphs},
journal = {Iranian Journal of Mathematical Chemistry},
volume = {5},
number = {Supplement 1},
pages = {35-44},
year = {2014},
publisher = {University of Kashan},
issn = {2228-6489},
eissn = {2008-9015},
doi = {10.22052/ijmc.2014.7773},
abstract = {The center (periphery) of a graph is the set of vertices with minimum (maximum) eccentricity. In this paper, the structure of centers and peripheries of some classes of composite graphs are determined. The relations between eccentricity, radius and diameter of such composite graphs are also investigated. As an application we determine the center and periphery of some chemical graphs such as nanotorus and nanotubes covered by C4.},
keywords = {Eccentricity,radius,diameter,Center,periphery},
url = {https://ijmc.kashanu.ac.ir/article_7773.html},
eprint = {https://ijmc.kashanu.ac.ir/article_7773_e1bcc982b7f0fa5c7778485da3528061.pdf}
}
@article {
author = {Azimi, N. and Roumena, M. and Ghorbani, M.},
title = {Relation Between Wiener, Szeged and Detour Indices},
journal = {Iranian Journal of Mathematical Chemistry},
volume = {5},
number = {Supplement 1},
pages = {45-51},
year = {2014},
publisher = {University of Kashan},
issn = {2228-6489},
eissn = {2008-9015},
doi = {10.22052/ijmc.2014.7776},
abstract = {In theoretical chemistry, molecular structure descriptors are used to compute properties of chemical compounds. Among them Wiener, Szeged and detour indices play significant roles in anticipating chemical phenomena. In the present paper, we study these topological indices with respect to their difference number.},
keywords = {Wiener index,Szeged index,Detour index},
url = {https://ijmc.kashanu.ac.ir/article_7776.html},
eprint = {https://ijmc.kashanu.ac.ir/article_7776_399fb4dba96bdfcaab0aa600fba7f2f6.pdf}
}