Remark

(terminology)
The terminology “Frobenius functor” (Def. ) is motivated by the observation (Thm. 5.1 there, see below) of Morita 1965 (who instead speaks of “strongly adjoint pairs”!) that the functor of restriction of scalars $f^\ast$ along a homomorphism $f$ of rings has coinciding left adjoint (extension of scalars) and right adjoint (coextension of scalars) iff $f$ is a ring extension which is a “Frobenius extension” in the sense of Kasch 1961.

The suggestion to therefore refer to Morita’s “strongly adjoint pairs” as “Frobenius functors” is due to Caenepeel, Militaru & Zhu 1997, seconded by CGN 1998.

Beware of the independent terminology of “Frobenius monoidal functor” which does not refer to Frobenius functors that are also monoidal. (Similarly, one should not refer to Kasch’s Frobenius extensions as “Frobenius morphisms”!)

On the other hand, the (co)monads induced by Frobenius adjunctions are the Frobenius monads, see the discussion there.

Example

Morita 1965 proved that the extension of scalars functor for a morphism of rings $f:R\to S$ is Frobenius iff the morphism $f$ itself is a Frobenius extension in the sense of (Kasch 1961), that is: ${}_R S$ is finitely generated projective and ${}_S S_R\cong Hom_R({}_R S, {}_R R)$ as $R-S$-bimodules.

This is in the spirit of the finite-dimensional duality coded e.g. in the notion of Frobenius algebra.