We study Kauffmans model of folded ribbon knots: knots made of a thin strip of paper folded flat in the plane. The folded ribbonlength is the length to width ratio of such a ribbon knot. We give upper bounds on the folded ribbonlength of 2-bridge, $(2,p)$ torus, twist, and pretzel knots, and these upper bounds turn out to be linear in crossing number. We give a new way to fold $(p,q)$ torus knots, and show that their folded ribbonlength is bounded above by $p+q$. This means, for example, that the trefoil knot can be constructed with a folded ribbonlength of 5. We then show that any $(p,q)$ torus knot $K$ has a constant $c>0$, such that the folded ribbonlength is bounded above by $ccdot Cr(K)^{1/2}$, providing an example of an upper bound on folded ribbonlength that is sub-linear in crossing number.