Open Extension Topology is not Perfectly T4

Theorem
Let $T = \struct {S, \tau}$ be a topological space.

Let $T^*_{\bar p} = \struct {S^*_p, \tau^*_{\bar p} }$ be the open extension space of $T$.

Then $T^*_{\bar p}$ is not a perfectly $T_4$ space.

Proof
By definition:


 * $\tau^*_{\bar p} = \set {U: U \in \tau} \cup \set {S^*_p}$

We have that $S$ is an open set in $T$ and so open set in $T^*_{\bar p}$.

So $\set p = S^*_p \setminus S$ is closed in $T^*_{\bar p}$.

The only open set in $T^*_{\bar p}$ which contains $p$ is $S^*_p$.

So $\set p$ can not be the intersection of open sets of $T^*_{\bar p}$, whether that intersection be countable or not.

So by definition $T^*_{\bar p}$ is not a perfectly $T_4$ space.