Beschreibung:
Controlled radical polymerization techniques for molecular imprinting, by Mark E. ByrneFrom bulk polymers to nanoparticles, by Lei YePost-imprinting and in-cavity functionalization, by Toshifumi TakeuchiCharacterization of MIPs (affinity, selectivity, site heterogeneity...), by Richard AnsellTheoretical aspects and computer modelling, by Ian NichollsMIPs in aqueous environments, by Bin LuMIPs for binding macromolecules, by Kenneth J. SheaSolid phase extraction, by Ecevit YilmazSensors, by Sergey A. PiletskyMIPs for catalysis and synthesis, by Marina ResminiWastewater treatment, by Bo MattiassonMIPs as tools for bioassays, biotransformation and drug delivery, by Meiping Zhao
Controlled radical polymerization techniques for molecular imprinting, by Mark E. ByrneFrom bulk polymers to nanoparticles, by Lei YePost-imprinting and in-cavity functionalization, by Toshifumi TakeuchiCharacterization of MIPs (affinity, selectivity, site heterogeneity…), by Richard AnsellTheoretical aspects and computer modelling, by Ian NichollsMIPs in aqueous environments, by Bin LuMIPs for binding macromolecules, by Kenneth J. SheaSolid phase extraction, by Ecevit YilmazSensors, by Sergey A. PiletskyMIPs for catalysis and synthesis, by Marina ResminiWastewater treatment, by Bo MattiassonMIPs as tools for bioassays, biotransformation and drug delivery, by Meiping Zhao
Controlled radical polymerization techniques for molecular imprinting.- From bulk polymers to nanoparticles.- Post-imprinting and in-cavity functionalization.- Characterization of MIPs (affinity, selectivity, site heterogeneity…).- Theoretical aspects and computer modelling.- MIPs in aqueous environments, by Bin Lu.- MIPs for binding macromolecules.- Solid phase extraction.- Sensors.- MIPs for catalysis and synthesis.- Wastewater treatment.- MIPs as tools for bioassays, biotransformation and drug delivery.