What you can't solve without fighting the language, I'd suggest solving with documentation. Identifiers are included in that category as a form of self-documentation.
So to add self-documentation to a type of this sort:
using TitleToAuthor = System.Collections.Generic.Dictionary<
string, // title
string // author
To add self-documentation to instances of that type:
TitleToAuthor title_to_author = new TitleToAuthor();
Unfortunately you cannot nest using directives as generic type parameters, so using a solution like this will make your using directives at the top of the file butt-ugly, but at least that butt-ugly code, written once, will then create a very readable alias to the left of it (showing exactly what it's for) that you can refer to throughout the rest of the code without actually creating new data types.
Another way is to simply create new data types, inheriting from Dictionary, e.g. I'd suggest this route if you have more you can do with the new type than simply getting a more readable type name, like adding methods that are specifically useful for that collection or if that collection is used in many source files (since then you'd have to repeat the same using directives a lot).
In such a case, composition might be better than inheritance (storing dictionary as a member) since then you could create a smaller, subset interface tailored to your needs (and perhaps with fewer ways to misuse it by only providing higher-level functions that make total sense for the specific container type) instead of just a full-blown dictionary's interface + more methods. In such a case, you'd be turning that somewhat hard-to-read, generic, general-purpose dictionary into a hidden implementation detail of something that not only reads better with respect to its type name, but also provides a smaller, tailored (less general) interface that more specifically handles your needs. For a simple example, it might be an error to allow empty strings to be specified for the key or the value. A dictionary doesn't impose such assertions, but an interface of your own design that uses dictionary as a private implementation detail can.
If you're tripping up over the readability of the key/value parameters of a dictionary, perhaps the problem is not really in the readability of the dictionary, but in the amount of public exposure that specific dictionary has. If you have a dictionary instance or even type with very public visibility that gets referred to all over the place, then you might be concerned with not only the readability of such code but also the flexibility that allows those accessing it to do anything they want that's allowed in a full-blown dictionary (including things you might not want to allow to happen at a broader scope). After all, even a type like
float tells you very little about what it's supposed to do, but we tend to write code in a way where floats are either implementation details of a class/function or just function parameters/return types that are rather obvious in terms of what they do. So perhaps it would be better to seek to make such dictionaries less visible and more into private implementation details, since the clarity and readability of implementation details generally doesn't matter nearly as much as the more publicly-visible parts of an interface that are going to be accessed throughout your codebase.