Grafting zwitterionic brushes from the surface of an epoxy-based transparent hydrogel for antifouling performance.

Non-specific biofilm formation (biofouling) commonly occurs to the surface of biomedical devices, which causes infection to the human tissues and function loss after implantation. To enhance the antifouling properties on the bioinert hydrogel-based biomaterials, a novel surface grafting approach was developed using surface radical chain-transfer reaction mediated by DL-dithiothreitol (DTT), rather than catalyzed by cytotoxic metal ions. Zwitterionic poly(2-methacryloyloxyethyl phosphorylcholine) (PMPC) brushes were grafted on the surface of poly(2-hydroxyethyl methacrylate--glycidyl methacrylate) (PHG) to obtain PHG-graft-PMPC (PHG--PMPC) hydrogel, which were shown to have tunable surface hydrophilicity while maintaining high water content and transparency.

Optimization of pretreatment in pymetrozine production wastewater via reactive distillation and side-stream distillation methods with response surface methodology.

Lots of highly concentrated saline organic wastewater is produced during the pymetrozine production process, causing environmental pollution and waste of resources if discharged directly. Research on actual pymetrozine wastewater treatment is quite scarce. Existing treatment methods of pesticide wastewater usually have disadvantages of long treatment time, low processing efficiency and low recovery rate.