Product Introduction
Matrix characteristics
▶ The matrix for preparing the column using Morphling is ultra-high purity fully porous spherical silica gel (purity>99.999%);
▶ Uniform pore size distribution and uniform particle size distribution;
Ensure the inertness and uniformity of the silicone surface through unique surface modification methods;
▶ Large specific surface area (320m2/g), with strong retention ability for hydrophobic and polar compounds;
▶ Good mechanical stability and high compressive strength.
▶ The matrix for preparing the column using Morphling is ultra-high purity fully porous spherical silica gel (purity>99.999%);
▶ Uniform pore size distribution and uniform particle size distribution;
Ensure the inertness and uniformity of the silicone surface through unique surface modification methods;
▶ Large specific surface area (320m2/g), with strong retention ability for hydrophobic and polar compounds;
▶ Good mechanical stability and high compressive strength.
Characteristics of bonding phases
1) Unique bonding technology with high coverage of bonding phases;
2) The unique fully double tail sealing technology minimizes the influence of residual silanol and has good peak shape for the separation of alkaline and strongly polar compounds; 3) Fillers with particle sizes of 5um and 10um provide more choices;
Overall characteristics
1) The packing material used for the analysis column is identical, ensuring good reproducibility of the analysis and preparation scales;
2) The unique column installation technology and 316L stainless steel column tubes ensure the stability of the column bed;
3) The symmetry value of the peak with a theoretical tray number of 40000/m at 10um and a theoretical tray number of>80000/m at 5um is 0.95-1.25;
4) The selectivity range of bonding phases is wide, including normal phase SiO2 silica gel columns, reverse phase WD-C18 AQ-C18、WD-C8、WD-C4;
Organic hybrid silicone matrix
The newly developed organic hybrid silica gel matrix Triart-C18, C8 is a product based on organic hybrid silica gel particles that introduce alkyl chains into the silica oxygen network chains of silica gel. This product has excellent separation performance and mechanical strength of silicone series fillers, as well as alkali resistance PH1.0-12.0 of polymer matrix fillers. The product adopts a new granulation technology of microchannel reaction technology to achieve rare uniformity between particles. Due to the uniform and smooth surface structure and narrow pore size distribution of filler particles, uniform surface modification can be effectively carried out, thereby achieving excellent peak shape and separation reproducibility.
1) Unique bonding technology with high coverage of bonding phases;
2) The unique fully double tail sealing technology minimizes the influence of residual silanol and has good peak shape for the separation of alkaline and strongly polar compounds; 3) Fillers with particle sizes of 5um and 10um provide more choices;
Overall characteristics
1) The packing material used for the analysis column is identical, ensuring good reproducibility of the analysis and preparation scales;
2) The unique column installation technology and 316L stainless steel column tubes ensure the stability of the column bed;
3) The symmetry value of the peak with a theoretical tray number of 40000/m at 10um and a theoretical tray number of>80000/m at 5um is 0.95-1.25;
4) The selectivity range of bonding phases is wide, including normal phase SiO2 silica gel columns, reverse phase WD-C18 AQ-C18、WD-C8、WD-C4;
Organic hybrid silicone matrix
The newly developed organic hybrid silica gel matrix Triart-C18, C8 is a product based on organic hybrid silica gel particles that introduce alkyl chains into the silica oxygen network chains of silica gel. This product has excellent separation performance and mechanical strength of silicone series fillers, as well as alkali resistance PH1.0-12.0 of polymer matrix fillers. The product adopts a new granulation technology of microchannel reaction technology to achieve rare uniformity between particles. Due to the uniform and smooth surface structure and narrow pore size distribution of filler particles, uniform surface modification can be effectively carried out, thereby achieving excellent peak shape and separation reproducibility.