While I'm reasonably experienced within Objective-C, I'm not as deeply versed in Smalltalk as many, but I've done a bit of it.
It would be difficult to really enumerate a list of which language has which features for a couple of reasons.
First, what is a "language feature" at all? In Objective-C, even blocks are really built in conjunction with the Foundation APIs and things like the
for(... in ...) syntax requires conformance to relatively high level protocol. Can you really talk about a language any more without also considering features of the most important API(s)? Same goes for Smalltalk.
Secondly, the two are very similar in terms of how messaging works and how inheritance is implemented, but they are also very different in how code goes from a thought in your head to running on your machine. Conceptually different to the point that it makes a feature-by-feature comparisons between the two difficult.
The key difference between the two really comes down to the foundation upon which they are built. Objective-C is built on top of C and, thus, inherits all the strengths (speed, portability, flexibility, etc..) and weaknesses (effectively a macro assembler, goofy call ABI, lack of any kind of safety net) of C & compiled-to-the-metal languages. While Objective-C layers on a bunch of relatively high level OO features, both compile time and runtime, there are limits because of the nature of C.
Smalltalk, on the other hand, takes a much more top-to-bottom-pure-OO model; everything, down to the representation of a bit, is an object. Even the call stack, exceptions, the interfaces, ...everything... is an object. And Smalltalk runs on a virtual machine which is typically, in and of itself, a relatively small native byte code interpreter that consumes a stream of smalltalk byte code that implements the higher level functionality. In smalltalk, it is much less about creating a standalone application and much more about configuring the virtual machine with a set of state and functionality that renders the features you need (wherein that configuration can effectively be snapshotted and distributed like an app).
All of this means that you always -- outside of locked down modes -- have a very high level shell to interact with the virtual machine. That shell is really also typically your IDE. Instead of edit-compile-fix-compile-run, you are generally writing code in an environment where the code is immediately live once it is syntactically sound. The lines between debugger, editor, runtime, and program are blurred.