We report a chemical DNA-DNA ligation method based on copper-catalyzed azide-alkyne cycloaddition (CuAAC). We demonstrate that ion addition dramatically influences the efficiency of the so-called click reaction. Even without any further additions, such as typically splint oligonucleotides for preorganization, the "click ligation" yields up to ∼83% product without any byproducts. Additionally, purification of the desired product is straightforward. In comparison to enzymatic ligation methods used to introduce adapters into, e.g., mRNA library preparation, this targeted chemical ligation method exhibits several advantages: increased ligated product and no adapter or cDNA oligomers byproducts. The advantages of the click ligation method were demonstrated by incorporation of azide modified nucleotides by several enzymes as well as broad polymerase acceptance of the obtained triazole linkage in PCR.