taking into account low gain requirement (i.e. "differential swing 1.2V") you need a complementary (P-type+N-type, to cover 0.6...1.2V input range) low gain (e.g. 2...4...8, to be fast) differential stage followed by simple regenerative amplifier. Might be enebled RS-latch as last stage shall be added, if comparison state have to keeped during whole clock cycle.
this means differential amplifier with ratio between driver to load transconductance (Gm/Gload) <10. In principle from your spec follow that even simple complementary (i.e. P-type + N-type sensitive input) regenerative amplifier (without analog preamplifier stage) can be enough.
can u please explain me a little more about ur recent post i.e.,simple complementary (i.e. P-type + N-type sensitive input) regenerative amplifier (without analog preamplifier stage)
I am actually new to analog designing:-(
input voltage sensing transistors could be N-type or P-type or both P+N-type (i.e. complementary) pair (quad) of transistors. Last case expand allowable range of common mode input voltages. Example of such simple comparator you can find on figure https://obrazki.elektroda.pl/50_1308299921.jpg
There are a lot of materials related to analog circuit design. You themself should to define a region of interests and use Google. As a beginner you can start from any classic, say "CMOS Analog Circuit Design" of Allen, Holberg.
Rgarding 10mV sensitivity level for your comparator it can be repeated that low gain preamplifier should be used before regenerative comparator in that case. Because regenerative comparators have usually good sensitivity (~5mV), but they typically have big input offset voltage.