Most of fundamental studies on protein folding have been performed with small globular proteins consisting of a single domain. In vitro many of these proteins are well characterized by a reversible two-state folding scheme. However, the majority of proteins in the cell belong to the class of larger multi-domain proteins that often unfold irreversibly under in vitro conditions. This makes folding studies difficult or even impossible. In spite of these problems for many multi-domain proteins, folding has been investigated by classical refolding. Co-translational folding of nascent polypeptide chains when synthesized by ribosomes has also been studied. Single molecule techniques represent a promising approach for future studies on the folding of multi-domain proteins, and tremendous advances have been made in these techniques in recent years. In particular, fluorescence-based methods can contribute significantly to an understanding of the fundamental principles of multi-domain protein folding.