In
chemistry,
solid-phase synthesis is a method in which
molecules are bound on a bead and synthesized step-by-step in a reactant solution; compared with normal
synthesis in a liquid state, it is easier to remove excess reactant or byproduct from the product. In this method, building blocks are
protected at all reactive
functional groups. The two functional groups that are able to participate in the desired reaction between building blocks in the solution and on the bead can be controlled by the order of deprotection. This method is used for the synthesis of
peptides, deoxyribonucleic acid (
DNA), and other molecules that need to be synthesized in a certain alignment. More recently, this method has also been used in
combinatorial chemistry and other synthetic applications. The process was originally developed in the 1950s and 1960s by
Robert Bruce Merrifield in order to synthesize peptide chains, and which was the basis for his 1984
Nobel Prize in Chemistry.