Of course node can't speed up your storage layer and make that single request that's incurring so much backend processing satisfy that request any faster to the end user. But what it can do is not tie up a thread in the application server thread pool. The single thread can continue on it's loop while that work is going on and accept another request.
That other request might be a cheaper request that will return when it's work is done. That can also happen in an application server with a thread pool model ... that is unless all the threads in the thread pool model are tied up blocked on I/O requests - along with the overhead of each thread. The cheaper request will get queued waiting on a thread out of the thread pool because they are all blocking. Nodes single thread would loop and server the cheap request.
This works because node mandates that all I/O is async and the only work that blocks the loop is your code. That's why the saying "everything in node runs in parallel except your code". While it's possible to write async code in other application servers and achieve similar results, many offer non-async thread pool models where the coding is easier but sometimes less scalable.
For example, this hanselman post illustrates how asp.net is capable of doing async requests but it's not the common model that most have used.