++i is sometimes faster than, and is never slower than, i++.
For intrinsic types like int, it doesn't matter: ++i and i++ are the same speed. For class types like iterators, ++i very well might be faster than i++ since the latter might make a copy of the this object.
The overhead of i++, if it is there at all, won't probably make any practical difference unless your app is CPU bound. For example, if your app spends most of its time waiting for someone to click a mouse, doing disk I/O, network I/O, or database queries, then it won't hurt your performance to waste a few CPU cycles. However it's just as easy to type ++i as i++, so why not use the former unless you actually need the old value of i.
So if you're writing i++ as a statement rather than as part of a larger expression, why not just write ++i instead? You never lose anything, and you sometimes gain something. Old line C programmers are used to writing i++ instead of ++i. E.g., they'll say,
for (i = 0; i < 10; i++) ....
Since this uses i++ as a statement, not as a part of a larger expression, then you might want to use ++i instead. For symmetry, I personally advocate that style even when it doesn't improve speed, e.g., for intrinsic types and for class types with postfix operators that return void.