There's nothing inherently slower about C++ versus C, but still, idiomatic C++ code tends to be a lot slower and heavier than idiomatic C code doing the same task. The word idiomatic is key here; if you write your C code to perform a task exactly the same way you would perform that task in C++, it's going to be just as slow. On the other hand, if you're aware of where the hidden costs typically creep up in C++, you can make an effort to keep them minimal and get the benefits of C++ without as many of the costs.
First and foremost is dynamic memory allocation. In C, you see every bit of dynamic memory allocation you do, because it's all explicit (either in the form of calls to
malloc or calls to third-party library functions which return allocated objects). In C++, many class objects where the object's storage duration is automatic will still incur dynamic memory allocation due to hidden allocations taking place in their constructors. A good C++ STL (or third-party library) implementation can avoid a lot of this cost by including small buffers inside the objects themselves, and only performing dynamic allocations when a large buffer is needed, but very few do this in practice. (If I'm not mistaken, llvm's libc++ does, but GCC's libstdc++ does not.) Since this is a quality of implementation issue that's often outside the control of your own code, the main thing you can do here to minimize the impact is be aware of the possibility that automatic objects allocate dynamic memory, and avoid creating more than you need (for example, by using pointers or references when possible). This has other benefits to your code, too.
Another big area is string handling. In idiomatic C, strings are constructed in one fell swoop with
snprintf or similar. In C++ and many other languages with more powerful string classes/types, concatenation (piece by piece construction) of strings is idiomatic. This is very inefficient, leading to multiple allocation/deallocation steps, copies, etc. not to mention the resulting memory fragmentation. I'm not sure what best practices for C++ would involve (I'm not well-versed in C++), but there should be ways to minimize this impact.
And most generally, of course, hidden code. This is sort of a catch-all. It's easy in C++ to write code whereby a lot of extra code you never see gets executed. Constructors/destructors, overloaded operators, and templates are the most obvious causes. Again, if you want to do things the same way in C, the cost will be the same, but the difference is that in C, you see the cost right away because you have to write it yourself.