If you're happy ignoring surrogate pairs (or equivalently, the possibility of your app needing characters outside the basic multilingual plane), UTF-16 has some nice properties, basically due to the size per code unit being constant. You know how much space to allocate for a given number of code units, and you can index directly into that space to access the nth code unit. Those aren't usually important aspects for a text file - although they certainly are if you want to use random access - but size generally is important for text files.
Consider the primitive type
char. If we use UTF-8 as the in-memory representation and want to cope with all Unicode characters, how big should that be? It could be up to 6 bytes... which means we'd always have to allocate 6 bytes. At that point we might as well use UTF-32!
Of course, we could use UTF-32 as the
char representation, but UTF-8 in the
string representation, converting as we go.
Where UTF-16 falls down of course is that the number of code units per Unicode character is variable... but in my experience relatively few apps actually handle non-BMP characters correctly anyway.
(Additionally, I believe Windows uses UTF-16 for Unicode data, and it makes sense for .NET to follow suit for interop reasons. That just pushes the question on one step though.)