Abstract
A {(3,4),4}-fullerene graph G is a 4-regular plane graph with exactly eight triangular faces and other quadrangular faces. An edge subset S of G is called an anti-Kekulé set, if G - S is a connected subgraph without perfect matchings. The anti-Kekulé number of G is the smallest cardinality of anti-Kekulé sets and is denoted by . In this paper, we show that ; at the same time, we determine that the {(3, 4), 4}-fullerene graph with anti-Kekulé number 4 consists of two kinds of graphs: one of which is the graph consisting of the tubular graph , where Q n is composed of concentric layers of quadrangles, capped on each end by a cap formed by four triangles which share a common vertex (see Figure 2 for the graph Q n ); and the other is the graph , which contains four diamonds D 1, D 2, D 3, and D 4, where each diamond consists of two adjacent triangles with a common edge such that four edges e 1, e 2, e 3, and e 4 form a matching (see Figure 7D for the four diamonds D 1 - D 4). As a consequence, we prove that if , then ; moreover, if , we give the condition to judge that the anti-Kekulé number of graph G is 4 or 5.
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