The aim of this study is to explore both effect and kinetics of dechlorination of pentachlorophenol (PCP) by commercial microscale iron powder (100 and 325 mesh) and nanoscale iron (Fe^0 and bimetallic Fe^0/Ni^0). Nanoscale bimetallic Fe^0/Ni^0 had more significant effect on the dechlorination of PCP than other irons and the decrease of PCP. The reaction pathway of PCP dechlorination could be revealed as follows: PCP→TeCP→TCP→DCP. Smaller part of PCP was adsorbed on the surface of commercial microscale iron powder (100 and 325 mesh), but could be dechlorinated easier than the larger part of PCP in the bulk solution. About 70% of total chlorophenols existed in liquid phase after the reactions of commercial microscale iron powder (100 and 325 mesh) with PCP whereas about 30% of total chlorophenols in solid phase. About 88% of total chlorophenols existed in liquid phase after the reactions of nanoscale iron with PCP whereas about 12% of total chlorophenols in solid phase. However, there were trace chlorophenols found in solid phase after the reactions of nanoscale bimetallic Fe^0/Ni^0 with PCP.