It is not possible. In proving this, we call the sum of the two
numbers at the ends of an edge the 'weight' of that edge. Note
that three of the nodes are connected to exactly two nodes, while
the other three are connected to exactly four nodes. Thus the
total of the nine weights must always be an even number,
whichever numbers are placed at the nodes.
Now the smallest possible weight is
1+2=3
while the largest possible weight is
5+6=11.
As there are exactly nine edges, we deduce that for the weights
for each edge to be different they must take the values 3, 4, 5,
6, 7, 8, 9, 10 and 11. However, the total of these is 63, an odd
number, so the task is impossible.