Electrostatics is important for protein structure stability. Charged amino acids contribute to these electrostatic interactions. β-Sheet is one of the protein secondary structures and is involved in various protein mis-folding diseases. Different amino acids have different propensities for β-sheet formation. Therefore, it is important to study the propensity of charged amino acids for β-sheet formation. This research focuses on the propensity of arginine (Arg) and arginine analogs with longer and shorter side chains (Agh, Agb, and Agp), and the position dependence of the corresponding sheet propensity. β-Hairpins are the simplest β-sheet structure. Hairpin peptides with arginine and arginine analogs incorporated at different guest sites were synthesized by Fmoc-based solid phase peptide synthesis. Collagen triple helix consists of three polyproline II helices. In this project, different numbers of POG triplets were inserted in the middle of all three heterotrimeric collagen triple helix forming peptides. Thermal denaturation experiments were used to determine the melting temperatures of the collagen triple helices. Thermal equilibration was found to be extremely long at temperatures around the melting transition, and up to 2000 minutes were required for reversible denaturation and renaturation. The melting temperatures were derived by fitting with the thermal denaturation curve, assuming a two-state trimer to monomer equilibrium. The POG triplet was found to stabilize the polyproline II structure in a collagen triple helix. Specificity was gradually decreased with the addition of more POG triplets. This study provides insights into how to use POG triplets to tune the stability and specificity of a collagen triple helix.