Singleton Point is Isolated

Theorem
Let $T = \left({S, \tau}\right)$ be a topological space.

Let $x \in S$.

Then $x$ is an isolated point of $\left\{{x}\right\}$, but not necessarily an isolated point of $T$.

Proof
Let $U \in \tau$ be an open set of $T$ such that $x \in T$.

The fact that such a $U$ exists follows from the fact that $S$ is open in $T$ and $x \in S$.

Then as $\left\{{x}\right\} \subseteq S$ it follows that $\left\{{x}\right\} \cap U = \left\{{x}\right\}$ from Intersection with Subset is Subset‎.

So by definition, $x$ is an isolated point of $\left\{{x}\right\}$.

From Topological Space is Discrete iff All Points are Isolated, unless $T$ is the discrete space on $S$, not all elements of $T$ are isolated points of $T$.