A rotation vector represent rotations by directly storing the axis of rotation and the angle magnitude.
Quaternions seem to be used much more to represent rotations. Why are quaternions preferred over rotation vectors in computer graphics?

Quaternions are much easier to compute with, for the computer of course (as a human you shouldn't bother with 3D rotations anyway):
So matrices and quaternions are much more appropriate rotational representations. From those two quaternions are more compact and they are also quite easy to convert into an axisangle representation (and back again), though using trigonometrics. So if you need axisangle information at the peripherals (it's only us humans who sometimes need an actual rotation axis and angle, the computer doesn't really care) you can still use it, but for internal representation and computation quaternions or matrices are a much better choice. If quaternions seem a bit heavy at first with their "3dimensional complex number" explanation, don't bother with their exact mathematical underpinnings. Just start to understand how they work and how to use them. Pragmatically they are just a kind of axisangle representation, but with implicitly encoded sines and cosines, which are needed for efficient transformation and computation. 


For a good explanation of potential reasons why quaterions are used and sometimes preferred over vectors, see this very intersting article. In this lengthy but insightful thread you will find opposing opinions on the usefulness of quaternions. TL;DR  the author's view is that we rather don't really need quaterions but because of their intricate and complex nature they seem to be very appealing to programmers. All operations exressed using quaternions can be expressed using vectors. This opinion is quite controversial though. 

