In a nutshell, you need to have the entire body (the definition) of a template function visible to the translation unit that instantiates the template. So when you say
t.Save(obj);, that translation unit should have access to the definition of
Save. Usually you achieve this by including the definitions of function templates in the header file itself.
The reason for this is that templates aren't ordinary code that gets compiled and can later be linked at will. Rather, templates are a code generation tool that generates the necessary code on demand - an automatic version of copy/paste followed by search-and-replace, if you will.
Therefore, the actual compilable code for your function
Save(ClassDerivedFromInterface&) doesn't come into existence until you write that line. If only the declaration of the function template is visible, then the template only produces the declaration of the concrete function, but not its body, and so at link time you notice that the function is missing.
To recap, templates themselves cannot be compiled, it is only their concrete instances that can, and you have to pay attention to ensure that the concrete instances are always available when you instantiate them. Explicit instantiation as you have it works and allows you to package a few specific instances into a separate TU, but generally that's hard to maintain and not scalable, and there are other drawbacks to explicit instantiation that you avoid when you let the compiler instantiate implicitly. So usually it's best to package your entire definitions into the header file.