You could use a lens for this. Lenses are quite a lot more general than this I think, but anything where you have such bidirectional functions can be made into a lens.
For example, given
unwords, we can make a
worded :: Simple Iso String [String]
worded = iso words unwords
Then you can use it to apply a function inside the lens, e.g.
lifted f x becomes
(worded %~ f) x. The only downside of lenses is that the library is extremely complicated, and has many obscure operators like
%~, even though the core idea of a lens is actually quite simple.
EDIT: This is not an isomorphism
I had incorrectly assumed that
unwords . words is equivalent to the identity function, and it is not, because extra spaces between words are lost, as correctly pointed out by several people.
Instead, we could use a much more complicated lens, like the following, which does preserve the spacing between words. Although I think it's still not an isomorphism, this does at least mean that
x == (x & worded %~ id), I hope. It is on the other hand, not in the least a very nice way of doing things, and not very efficient. It is possible that an indexed lens of the words themselves (rather than a list of the words) may be better, although it permits fewer operations (I think, it's really hard to tell when lenses are involved).
import Data.Char (isSpace)
worded :: Simple Lens String [String]
worded f s =
let p = makeParts s
in fmap (joinParts p) (f (takeParts p))
data Parts = End | Space Char Parts | Word String Parts
makeParts :: String -> Parts
makeParts = startPart
startPart  = End
startPart (c:cs) =
if isSpace c then Space c (startPart cs) else joinPart (Word . (c:)) cs
joinPart k  = k  End
joinPart k (c:cs) =
if isSpace c then k  (Space c (startPart cs)) else joinPart (k . (c:)) cs
takeParts :: Parts -> [String]
takeParts End = 
takeParts (Space _ t) = takeParts t
takeParts (Word s t) = s : takeParts t
joinParts :: Parts -> [String] -> String
joinParts _  = 
joinParts (Word _ End) (ws@(_:_:_)) = unwords ws
joinParts End ws = unwords ws
joinParts (Space c t) ws = c : joinParts t ws
joinParts (Word _ t) (w:ws) = w ++ joinParts t ws