(++) is the same as
(0:), which will make it look tidier and save us a nanosecond or two.
(I'm joking with the nanosecond thing - no human can tell when something's a nanosecond faster, but it is nicer this way anyway.)
Let's first think about making the lists you need. We want
postponeLists [[1,2,3], [7,6,8], [10,20,30,40]]
= [[1,2,3], [0,7,6,8], [0,0,10,20,30,40]]
= [1,2,3] : ones that should have zero in front of them
That's enough information for a definition:
postponeLists  = 
postponeLists (l:ls) = l : map (0:) (postponeLists ls)
Now you said
foldl (zipWith +)  [[1,2,3],[0,7,6,8],[0,0,0,3,4]]
but you mean
foldl (zipWith (+))  [[1,2,3],[0,7,6,8],[0,0,0,3,4]]
but unfortunately, that gives you
zipWith stops as soon as any of the lists run out of elements.
We need some way of zipping them that doesn't stop.
Solution 1: find the longest one, make them all that
take maxlength.(++ repeat 0)
Solution 2: write another zipWith function that doesn't stop.
I prefer solution 2. Let's look at the definition of
zipWith :: (a->b->c) -> [a]->[b]->[c]
zipWith f (a:as) (b:bs) = f a b : zipWith f as bs
zipWith _ _ _ =  -- here's the problem - it stops as soon as any list is empty
OK, let's not stop then:
zipWithMore :: (a -> a -> a) -> [a] -> [a] -> [a]
zipWithMore f (a:as) (b:bs) = f a b : zipWithMore f as bs
zipWithMore f  bs = bs -- if there's more in bs, use that
zipWithMore f as  = as -- if there's more in as, use that
Now you can replace
zipWith (+) with
zipWithMore (+). I'll leave the punchline to you.