Abstract:Chemically oxidative polymerization of m-phenylenediamine was improved through adding the weak alkaline, Na₂CO₃. Results show that the poly (m-phenylenediamine) (PmPD) possesses a weak solubility in acidic solution according to total organic carbon (TOC) that the TOC is less than 8 mg/L, which is much lower than the discharge standard (20 mg/L). The TOC of the PmPD synthesized with NaOH can be as high as 120.9 mg/L. This very weak solubility of PmPD synthesized with Na₂CO₃ facilitates its application in water purification. The oxidation state of PmPD is decreased and the yield is increased with a maximum of 84%, promoting the concentration of Na₂CO₃ in the synthesis. Moreover, the Cr(VI) performance of PmPD was marvelously enhanced with Na₂CO₃ to improve the synthesis. The largest Cr(VI) adsorbance can reach as high as 666.8 mg/g, which is far more than the performance of other common adsorbents.

Key words: poly (m-phenylenediamine); chromium (VI); sodium carbonate; adsorption