The objective of this research is to use nanoscale zero valent copper supported on cation exchange resin (nano copper-resin) to reduce hexavalent chromium to trivalent chromium. Using cation exchange resin as the agent of dispersion could disperse nanoscale zero valent copper. In addition, cation resin could recycle divalent copper (Cu2+) and trivalent chromium (Cr3+). There are three major parts in the experiment part. First one is the fabrication of nanoscale copper-resin, second one is nanoscale copper-resin surface analysis, and last one is batch experiment of hexavalent chromium reduction . The characterizations of nanoscale copper-resin surface were investigated by SEM and AAS. The effect of specific surface area of nanoscale copper-resin on reduction of hexavalent chromium were investigated and discussed. Different copper/resin ratios have different specific area and ability to reduce hexavalent chromium. Six Different copper/resin ratios,45, 35, 25, 15, 5, and 1 mg-copper/g-resin was investigated in this study. In each batch experiment, 2 g nanoscale copper-resin were added in 230 mL solution containing 20 mg-Cr(VI)/L. Nanoscale copper-resin in 25 mg-copper/g-resin is the best one to reduce hexavalent chromium. The efficiency for reducing is around 100% in 25 mg-copper/g-resin nanoscale copper-resin after 24 hours. The removal efficiency when pH is at 3 is better than when pH is at 5 and 7. The used nano copper-resin can be regenerated by the reduce process. The regenerated nano copper-resin still had good performance in removal total chromium and hexavalent chromium. Furthermore, had good performance in recycling divalent copper ion and trivalent chromium ion.