some ideas would be:

Passive transformer based circuits (i.e. balun) would work at high frequencies (>1GHz) on chip can be used to do the single ended to differential convserion, but are area hungry

An active single ended LNA output can be coupled to a diffential input following stage, where the unused 2nd stage input is capacitor coupled to the LNA output's common-mode level to give a psuedo differential interface.

Barry Gilbert published a cool circuit for single ended input differential output mixer. He coined the overall circuit the "micromixer." The input stage is a combination common base (or equivalently common gate) for the inphase path and a current mirror turn around which acts sort of a common emitter (or common source) amp for the 180 degree path. The 180 split is not completly balanced at RF, but hardly any of the other techniques are either.

The MICROMIXER: a highly linear variant of the Gilbert mixer using a bisymmetric Class-AB input stage
Gilbert, B.
Solid-State Circuits, IEEE Journal of, Vol.32, Iss.9, Sep 1997
Pages:1412-1423

Additionally one could also connect the single ended antenna to one terminal of the differential mixer and connect the other terminal of the mixer by a large capacitance to ground. But of course, you will have to deal with the significant loading of the LNA by the mixer (which is mostly capacitive... and large) at it's input. This way you would only loose 3dB in the signal.