Fig. 5: Investigation of the catalytic performance of different continuous-flow NaMeR with tailored nanochannel properties.

The change of \({C}_{{{{{{{\rm{PO}}}}}}}_{4}^{3-}}\) with time in continuous-flow reaction with C_InsP6 = 38.6 mM and flux of 6.6-7.9 L m^-2 h^-1 (Supplementary Fig. 28) for various YmPh-LCI@M immobilized membranes: a Pri57, Pri44, and Pri30; (b) Pri57, PC10, PC39, PC73, and PC91. c The comparison of productivity at steady state for various YmPh-LCI@M immobilized membranes Pri30, Pri44, Pri57, PC10, PC39, PC73, and PC91. d, e Effect of C_InsP6 on \({C}_{{{{{{{\rm{PO}}}}}}}_{4}^{3-}}\) and R_P of PC73 and of PC91 at the flux of 7.5-8.0 L m^-2 h^-1 (Supplementary Table 10). f A reconstructed elemental line scan of the gold signal along the cross-section of the membrane (PC91) with gold-labelled YmPh-LCI_Au from EDX mapping. The membrane’s top surface faces right. Results were reproduced three times independently; representative micrograph is shown. g The binding affinity of YmPh-LCI towards poly(4-vinyl pyridine) (P4VP) and positively charged P4VP (PC-P4VP) thin film surfaces, determined by surface plasmon resonance (SPR) spectroscopy. h Schematic representation of the YmPh-LCI binding within nanochannels of the cylindrical top layer of Pri57 and PC91. All error bars represent s.d. of the mean from three independent experiments (n = 3). Source data are provided as a Source Data file.