I cannot answer for Redis because I don't use it and never have so I won't pretend I have.
However, if for some reason, you are not using something like an XMPP client like Facebook does: http://www.ibm.com/developerworks/xml/tutorials/x-realtimeXMPPtut/section3.html (aka Jabber) for chat then I will describe about a pure MongoDB solution in this situation.
MongoDB uses the OS' LRU as a means to cache documents and queries, fair enough it provides no direct query cache however if you are smart you will not need one; instead you just read all your queries directly from RAM. With this in mind MongoDB can be just as fast as Redis, since Redis uses the computers RAM too.
Speed between the two on a optimised query is negligible I would think. The true measure of speed comes from your schema, indexes, cluster setup and the queries you perform.
A note about storage size here, taking your comment into consideration:
the problem with flushing mongodb is bigger than I initially though: apparently when you delete something on mongo you only delete its reference, so if you delete 4mb of documents, it won't free up that much space. the only way to actually free up that memory is to run a dbRepair (or something among this line) that basically blocks the db while running....
You seem to have some misconceptions about exactly how MongoDB works.
This link will be of help to you: http://www.10gen.com/presentations/storage-engine-internals it will describe some of the reasons why excessive disk space is used and will also explain some of the misconceptions you have about how a computer works and how MongoDB frees space and reuses it.
MongoDB does not free space on a record level. Instead it will send that "empty" record (record and document are two different things as the presentation will tell you), shove it into a deleted bucket list and then reuse that space when a new document (or a updated document that has been moved) comes along and fits in that space.
It is true that if you are not careful and understanding on how MongoDB works on this level that you will probably be forced to run
repairDB fairly regularly to keep any sort of performance after fragmentation.
As for memory handling. The OS handles this as I said. A good explanation of when the OS will free memory is on Wikipedia: http://en.wikipedia.org/wiki/Paging
Until there is not enough RAM to store all the data needed, the process of obtaining an empty page frame does not involve removing another page from RAM.
So the OS will handle removing pages for you and you shouldn't concern yourself with that part, instead you should be concerned with making your working set fit into RAM.
If you are worried about storing messages and don't really want to, i.e. you want them to be "flushed" you can actually use the TTL feature that comes with the later MongoDB installations: http://docs.mongodb.org/manual/tutorial/expire-data/ which will basically allow you to set a time-out for when a message should be deleted from the collection.
So personally if set-up right MongoDB could do messaging and chat like Facebook do it, of course they use the XMPP protocol and then archive messages into Cassandra for search but you don't have to do it like they do, that is just one way to achieve the same goal.
Hope this makes sense and I haven't gone round in circles, it is a bit of a long answer.