The most efficient way to implement what you need is the algorithm of Aho-Corasick - if you need to process new elements of List 2 dynamically. It is based on prefix-trees, a commonly used technique in string search algorithms. Those algorithm will give you complexity of O(sum of all string lengths)
The other option is Knuth-Morris-Pratt algorithm which will give you the same complexity, but initially works with single string to search.
But if you are OK with
O((list2.Count*log(list2.Count) + list1.Count*log(list1.Count))*AverageStrLength), I can propose my simple implementation:
Sort both lists. Then go along them simultaneously and select matches.
UPDATE: This implementation is fine when you have already sorted lists. Then it executes in about 100ms. But sorting takes 3.5 sec itself, so implementation isn't as good as I expected at first. As for simple implementation, Tim's solution is faster.
var result = new List<string>();
for(int i=0, j=0; i<list1.Count; i++)
var l1Val = list1[i];
for (; j < list2.Count && string.CompareOrdinal(l1Val, list2[j]) > 0; j++) ;
for (; j < list2.Count && list2[j].StartsWith(l1Val); j++)
That's the most simple efficient implementation I can propose.