If $A$ is a $k$-algebra, recall that $\Omega_{A/k}$ is $I/I^2$ where $I$ is the kernel of the multiplication map $A \otimes_k A \to A$. If $I$ is a finitely generated ideal of $A \otimes_k A$, and in particular if $A \otimes_k A$ is Noetherian (e.g. if $A$ is essentially of finite type), then $\Omega_{A/k} = 0$ iff $I = I^2$ iff (by Nakayama) $I$ is generated by an idempotent. 

This condition implies that $A$ is a projective $A \otimes_k A$-module, so $A$ is <a href="https://en.wikipedia.org/wiki/Separable_algebra">separable</a> over $k$, and hence must be a finite product of finite separable extensions of $k$ by the classification of separable algebras. When $k = \mathbb{F}_p$ all such algebras clearly have surjective Frobenius. 

I'm not sure what to do about the non-Noetherian case.