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Proper conflict-free coloring of sparse graphs

A {\it proper conflict-free $c$-coloring} of a graph is a proper $c$-coloring such that each non-isolated vertex has a color appearing exactly once on its neighborhood. This notion was formally introduced by Fabrici et al., who proved that planar graphs have a proper conflict-free 8-coloring and constructed a planar graph with no proper conflict-free 5-coloring. Caro, Petruševski, and Škrekovski investigated this coloring concept further, and in particular studied upper bounds on the maximum average degree that guarantees a proper conflict-free $c$-coloring for $c\in\{4,5,6\}$. Along these lines, we completely determine the threshold on the maximum average degree of a graph $G$, denoted $mad(G)$, that guarantees a proper conflict-free $c$-coloring for all $c$ and also provide tightness examples. Namely, for $c\geq 5$ we prove that a graph $G$ with $mad(G)\leq \frac{4c}{c+2}$ has a proper conflict-free $c$-coloring, unless $G$ contains a $1$-subdivision of the complete graph on $c+1$ vertices. When $c=4$, we show that a graph $G$ with $mad(G)<\frac{12}{5}$ has a proper conflict-free $4$-coloring, unless $G$ contains an induced $5$-cycle. In addition, we show that a planar graph with girth at least 5 has a proper conflict-free $7$-coloring.