I didn't fully understand the solution you propose, but I have another one. I will try to describe how it works and maybe than you can see what was wrong with your solution and why it didn't work.

Let's consider an example of [[1,2], [3,4]]. The idea is to go through the first sub-list [1,2] and create an incomplete result [[1],[2]], then go through the next one [3,4] and prepend (which is easier than append in Prolog) each item in it to the each sub-list in the result. We will end up with [[3,1], [4,1]]. The sub-lists are then reversed and we have the result [[1,3],[1,4]].

Now the implementation:
The `vertical`

predicate is the core, it goes through the list of lists and the result is step by step accumulated in the Acc varible.

For each of the sublists, the `vertical`

predicate calls the `addfirst`

predicate, which takes each element of that sublist and prepends it to the list in which the previous results were accumulated.

```
vertical([X|Xs],Result):-
createempty(X, Acc),
vertical([X|Xs], Acc, ReversedResults),
reverseall(ReversedResults, Result).
reverseall([], []).
reverseall([X|Xs], [XReversed|Rest]):-
reverse(X, XReversed),
reverseall(Xs, Rest).
createempty([], []).
createempty([X|Xs], [[]|R]):-createempty(Xs,R).
vertical([], Result, Result).
vertical([X|Xs], Acc, Result):-
addfirst(X, Acc2, Acc),
vertical(Xs, Acc2, Result).
addfirst([], [], []).
addfirst(
[Y|Ys],
[[Y|YVerticalRest]|ResultRest],
[YVerticalRest|VerticalsRest]):-
addfirst(Ys, ResultRest, VerticalsRest).
```