Ramsey's theorem tells us that every graph on $n$ vertices has either a clique or independent subgraph of size at least $\frac{1}{2}\log n$, and so, $|V(G)| \le 4^{\alpha(G)} + 4^{\omega(G)}$ where $\alpha$ and $\omega$ are the maximum size of an independent set and clique subgraph, respectively.

If we only want to bound the chromatic number of $G$, can we get a better bound as a function of $\alpha$ and $\omega$ (than what you get from the Ramsey bound)? Specifically, is it true that for all graphs, $\chi(G) = o(\sqrt2^{\alpha(G)} + \sqrt2^{\omega(G)})$?