Daicel Polysaccharide Derivatives Solvent-Based SFC Chiral Columns
The separation time is shortened
The viscosity of the supercritical fluid is low, the diffusivity is good, and the separation of the chiral column can also achieve a good separation effect under the condition of high flow velocity.
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Facilitate the separation of acidic compounds
As the mobile phase CO2, so the separation of acidic compounds, without additives can achieve good separation.
Rapid sample recovery
After the separation is complete recovery of atmospheric pressure in the mobile phase of CO2 direct gasification, greatly reducing the post-processing time, but also reduces the heat load during the steaming.
Decrease in the amount of organic solvent
As the main component of the mobile phase of CO2, can greatly reduce the amount of organic solvents, and CO2 can be recycled and reused.
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Daicel 81423 CHIRALPAK ® IB SFC Analytical HPLC Chiral Column - Polysaccharide Derivatives Solvent-Rich Chiral Column, 4.6mm, 100mm, 5µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81435 CHIRALPAK ® IB SFC Semi Preparative Analytical HPLC Chiral Column - Polysaccharide Derivatives Solvent-Rich Chiral Column, 10mm, 250mm, 5µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81445 CHIRALPAK ® IB SFC Semi Preparative Analytical HPLC Chiral Column - Polysaccharide Derivatives Solvent-Rich Chiral Column, 20mm, 250mm, 5µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81475 CHIRALPAK ® IB SFC Preparative Analytical HPLC Chiral Column - Polysaccharide Derivatives Solvent-Rich Chiral Column, 30mm, 250mm, 5µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81455 CHIRALPAK ® IB SFC Preparative Analytical HPLC Chiral Column - Polysaccharide Derivatives Solvent-Rich Chiral Column, 50mm, 250mm, 5µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81S82 CHIRALPAK ® IB-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 3mm, 50mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81S83 CHIRALPAK ® IB-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 3mm, 100mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81S84 CHIRALPAK ® IB-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 3mm, 150mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 85S82 CHIRALPAK ® IE-3 SFC Supercritical Fluid Chromatography olysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 3.0mm, 50mm, 3µm
The surface of the silica was covalently bound with amylose - tris (3,5-dichlorophenylcarbamate)
IE solvent-resistant chiral column, the amylose-tris (3,5-dichlorophenylcarbamate) covalently bonded to the surface of the silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration.
Examples of solvents that can be used:
Normal phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Inverted: H 2 O, of IPA, MeOH
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Daicel 85S83 CHIRALPAK ® IE-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 3.0mm, 100mm, 3µm
The surface of the silica was covalently bound with amylose - tris (3,5-dichlorophenylcarbamate)
IE solvent-resistant chiral column, the amylose-tris (3,5-dichlorophenylcarbamate) covalently bonded to the surface of the silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration.
Examples of solvents that can be used:
Normal phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Inverted: H 2 O, of IPA, MeOH
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Daicel 85S84 CHIRALPAK ® IE-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Based Analytical HPLC Chiral Column, 3.0mm, 150mm, 3µm
The surface of the silica was covalently bound with amylose - tris (3,5-dichlorophenylcarbamate)
IE solvent-resistant chiral column, the amylose-tris (3,5-dichlorophenylcarbamate) covalently bonded to the surface of the silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration.
Examples of solvents that can be used:
Normal phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Inverted: H 2 O, of IPA, MeOH
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Daicel 85S94 CHIRALPAK ® IE-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Based Analytical HPLC Chiral Column, 2.1mm, 150mm, 3µm
The surface of the silica was covalently bound with amylose - tris (3,5-dichlorophenylcarbamate)
IE solvent-resistant chiral column, the amylose-tris (3,5-dichlorophenylcarbamate) covalently bonded to the surface of the silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration.
Examples of solvents that can be used:
Normal phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Inverted: H 2 O, of IPA, MeOH
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Daicel 85S95 CHIRALPAK ® IE-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Based Analytical HPLC Chiral Column, 2.1mm, 250mm, 3µm
The surface of the silica was covalently bound with amylose - tris (3,5-dichlorophenylcarbamate)
IE solvent-resistant chiral column, the amylose-tris (3,5-dichlorophenylcarbamate) covalently bonded to the surface of the silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration.
Examples of solvents that can be used:
Normal phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Inverted: H 2 O, of IPA, MeOH
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Daicel 85S23 CHIRALPAK ® IE-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 4.6mm, 100mm, 3µm
The surface of the silica was covalently bound with amylose - tris (3,5-dichlorophenylcarbamate)
IE solvent-resistant chiral column, the amylose-tris (3,5-dichlorophenylcarbamate) covalently bonded to the surface of the silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration.
Examples of solvents that can be used:
Normal phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Inverted: H 2 O, of IPA, MeOH
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Daicel 85S24 CHIRALPAK ® IE-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 4.6mm, 150mm, 3µm
The surface of the silica was covalently bound with amylose - tris (3,5-dichlorophenylcarbamate)
IE solvent-resistant chiral column, the amylose-tris (3,5-dichlorophenylcarbamate) covalently bonded to the surface of the silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration.
Examples of solvents that can be used:
Normal phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Inverted: H 2 O, of IPA, MeOH
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Daicel 85S25 CHIRALPAK ® IE-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 4.6mm, 250mm, 3µm
The surface of the silica was covalently bound with amylose - tris (3,5-dichlorophenylcarbamate)
IE solvent-resistant chiral column, the amylose-tris (3,5-dichlorophenylcarbamate) covalently bonded to the surface of the silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration.
Examples of solvents that can be used:
Normal phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Inverted: H 2 O, of IPA, MeOH
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Daicel 85S22 CHIRALPAK ® IE-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 4.6mm, 50mm, 3µm
The surface of the silica was covalently bound with amylose - tris (3,5-dichlorophenylcarbamate)
IE solvent-resistant chiral column, the amylose-tris (3,5-dichlorophenylcarbamate) covalently bonded to the surface of the silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration.
Examples of solvents that can be used:
Normal phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Inverted: H 2 O, of IPA, MeOH
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Daicel 81S22 CHIRALPAK ® IB-3 SFC Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 50mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81S24 CHIRALPAK ® IB-3 SFC Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 150mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81S25 CHIRALPAK ® IB-3 SFC Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 250mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81S23 CHIRALPAK ® IB-3 SFC Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 100mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81S94 CHIRALPAK ® IB-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 2.1mm, 150mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 81S95 CHIRALPAK ® IB-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 2.1mm, 250mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IB-3 / SFC, CHIRALPAK ® IB / SFC Solvent-based chiral column, silica gel covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate).
Solvents use unrestricted, wide dissolution conditions, any solvent can be used as a mobile solvent, dissolved samples, chiral column regeneration. And has the necessary anti-high pressure performance when used on SFCs.
Solvents that can be used, for example:
The main mobile phase: CO 2
Solvent: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (not more than 30%)
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Daicel 80S22 CHIRALPAK ® IA-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 50mm, 3µm
The surface of silica was covalently bound with amylose - tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IA-3 / SFC, CHIRALPAK ® IA / SFC solvent-resistant chiral column with amylose-tris (3,5-dimethylphenylcarbamate) covalently bonded to the surface of silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration. It also has the necessary high pressure resistance for use on SFC.
Examples of solvents that can be used:
The main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (accounting for no more than 30%
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Daicel 80S24 CHIRALPAK ® IA-3 SFC Supercritical Fluid Chromatography olysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 150mm, 3µm
The surface of silica was covalently bound with amylose - tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IA-3 / SFC, CHIRALPAK ® IA / SFC solvent-resistant chiral column with amylose-tris (3,5-dimethylphenylcarbamate) covalently bonded to the surface of silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration. It also has the necessary high pressure resistance for use on SFC.
Examples of solvents that can be used:
The main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (accounting for no more than 30%
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Daicel 80S25 CHIRALPAK ® IA-3 SFC Analytical Column - Polysaccharide Derivatives Solvent-Rich Chiral Column, 4.6mm, 250mm, 3µm
The surface of silica was covalently bound with amylose - tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IA-3 / SFC, CHIRALPAK ® IA / SFC solvent-resistant chiral column with amylose-tris (3,5-dimethylphenylcarbamate) covalently bonded to the surface of silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration. It also has the necessary high pressure resistance for use on SFC.
Examples of solvents that can be used:
The main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (accounting for no more than 30%
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Daicel 80S94 CHIRALPAK ® IA-3 SFC Analytical Column - Polysaccharide Derivatives Solvent-Rich Chiral Column, 2.1mm, 150mm, 3µm
The surface of silica was covalently bound with amylose - tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IA-3 / SFC, CHIRALPAK ® IA / SFC solvent-resistant chiral column with amylose-tris (3,5-dimethylphenylcarbamate) covalently bonded to the surface of silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration. It also has the necessary high pressure resistance for use on SFC.
Examples of solvents that can be used:
The main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (accounting for no more than 30%
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Daicel 80S95 CHIRALPAK ® IA-3 SFC Analytical Column - Polysaccharide Derivatives Solvent-Rich Chiral Column, 2.1mm, 250mm, 3µm
The surface of silica was covalently bound with amylose - tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IA-3 / SFC, CHIRALPAK ® IA / SFC solvent-resistant chiral column with amylose-tris (3,5-dimethylphenylcarbamate) covalently bonded to the surface of silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration. It also has the necessary high pressure resistance for use on SFC.
Examples of solvents that can be used:
The main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (accounting for no more than 30%
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Daicel 80S23 CHIRALPAK ® IA-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 100mm, 3µm
The surface of silica was covalently bound with amylose - tris (3,5-dimethylphenylcarbamate)
CHIRALPAK ® IA-3 / SFC, CHIRALPAK ® IA / SFC solvent-resistant chiral column with amylose-tris (3,5-dimethylphenylcarbamate) covalently bonded to the surface of silica gel.
Unrestricted use of solvents, a wide range of dissolution conditions, the use of any miscible solvent as a mobile phase, dissolved samples, chiral column regeneration. It also has the necessary high pressure resistance for use on SFC.
Examples of solvents that can be used:
The main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH3Cl, THF, MTBE, n-Hexane, IPA, EtOH, H2O, IPA, MeOH (accounting for no more than 30%
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Daicel 83S82 CHIRALPAK ® IC-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 3.0mm, 50mm, 3µm
The surface of the silica gel is covalently bonded with cellulose-tris(3,5-dichlorophenylcarbamate)
CHIRALPAK ® IC-3/SFC, CHIRALPAK ® IC/SFC solvent-resistant chiral column with cellulose-tris(3,5-dichlorophenylcarbamate) covalently bonded to the surface of silica gel.
Solvent use is unlimited, extensive dissolution conditions, any miscible solvent can be used as mobile phase, dissolved sample, chiral column regeneration. It also has the high pressure resistance necessary for use on SFC.
Solvents that can be used are, for example:
Main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH 3 Cl, THF, MTBE, n-Hexane, IPA, EtOH, H 2 O, IPA, MeOH (less than 30%)
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Daicel 83S83 CHIRALPAK ® IC-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 3.0mm, 100mm, 3µm
The surface of the silica gel is covalently bonded with cellulose-tris(3,5-dichlorophenylcarbamate)
CHIRALPAK ® IC-3/SFC, CHIRALPAK ® IC/SFC solvent-resistant chiral column with cellulose-tris(3,5-dichlorophenylcarbamate) covalently bonded to the surface of silica gel.
Solvent use is unlimited, extensive dissolution conditions, any miscible solvent can be used as mobile phase, dissolved sample, chiral column regeneration. It also has the high pressure resistance necessary for use on SFC.
Solvents that can be used are, for example:
Main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH 3 Cl, THF, MTBE, n-Hexane, IPA, EtOH, H 2 O, IPA, MeOH (less than 30%)
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Daicel 83S84 CHIRALPAK ® IC-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 3.0mm, 150mm, 3µm
The surface of the silica gel is covalently bonded with cellulose-tris(3,5-dichlorophenylcarbamate)
CHIRALPAK ® IC-3/SFC, CHIRALPAK ® IC/SFC solvent-resistant chiral column with cellulose-tris(3,5-dichlorophenylcarbamate) covalently bonded to the surface of silica gel.
Solvent use is unlimited, extensive dissolution conditions, any miscible solvent can be used as mobile phase, dissolved sample, chiral column regeneration. It also has the high pressure resistance necessary for use on SFC.
Solvents that can be used are, for example:
Main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH 3 Cl, THF, MTBE, n-Hexane, IPA, EtOH, H 2 O, IPA, MeOH (less than 30%)
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Daicel 83S94 CHIRALPAK ® IC-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 2.1mm, 150mm, 3µm
The surface of the silica gel is covalently bonded with cellulose-tris(3,5-dichlorophenylcarbamate)
CHIRALPAK ® IC-3/SFC, CHIRALPAK ® IC/SFC solvent-resistant chiral column with cellulose-tris(3,5-dichlorophenylcarbamate) covalently bonded to the surface of silica gel.
Solvent use is unlimited, extensive dissolution conditions, any miscible solvent can be used as mobile phase, dissolved sample, chiral column regeneration. It also has the high pressure resistance necessary for use on SFC.
Solvents that can be used are, for example:
Main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH 3 Cl, THF, MTBE, n-Hexane, IPA, EtOH, H 2 O, IPA, MeOH (less than 30%)
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Daicel 83S95 CHIRALPAK ® IC-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 2.1mm, 250mm, 3µm
The surface of the silica gel is covalently bonded with cellulose-tris(3,5-dichlorophenylcarbamate)
CHIRALPAK ® IC-3/SFC, CHIRALPAK ® IC/SFC solvent-resistant chiral column with cellulose-tris(3,5-dichlorophenylcarbamate) covalently bonded to the surface of silica gel.
Solvent use is unlimited, extensive dissolution conditions, any miscible solvent can be used as mobile phase, dissolved sample, chiral column regeneration. It also has the high pressure resistance necessary for use on SFC.
Solvents that can be used are, for example:
Main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH 3 Cl, THF, MTBE, n-Hexane, IPA, EtOH, H 2 O, IPA, MeOH (less than 30%)
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Daicel 83S25 CHIRALPAK ® IC-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 250mm, 3µm
The surface of the silica gel is covalently bonded with cellulose-tris(3,5-dichlorophenylcarbamate)
CHIRALPAK ® IC-3/SFC, CHIRALPAK ® IC/SFC solvent-resistant chiral column with cellulose-tris(3,5-dichlorophenylcarbamate) covalently bonded to the surface of silica gel.
Solvent use is unlimited, extensive dissolution conditions, any miscible solvent can be used as mobile phase, dissolved sample, chiral column regeneration. It also has the high pressure resistance necessary for use on SFC.
Solvents that can be used are, for example:
Main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH 3 Cl, THF, MTBE, n-Hexane, IPA, EtOH, H 2 O, IPA, MeOH (less than 30%)
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Daicel 83S24 CHIRALPAK ® IC-3 SFC Supercritical Fluid Chromatography Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 150mm, 3µm
The surface of the silica gel is covalently bonded with cellulose-tris(3,5-dichlorophenylcarbamate)
CHIRALPAK ® IC-3/SFC, CHIRALPAK ® IC/SFC solvent-resistant chiral column with cellulose-tris(3,5-dichlorophenylcarbamate) covalently bonded to the surface of silica gel.
Solvent use is unlimited, extensive dissolution conditions, any miscible solvent can be used as mobile phase, dissolved sample, chiral column regeneration. It also has the high pressure resistance necessary for use on SFC.
Solvents that can be used are, for example:
Main mobile phase: CO 2
Auxiliary solvents: Ethyl acetate, CH 3 Cl, THF, MTBE, n-Hexane, IPA, EtOH, H 2 O, IPA, MeOH (less than 30%)
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Daicel 17G22 CHIRALCEL OJ-10 SFC Supercritical Fluid Chromatography Coated Polysaccharide Derivative Analytical HPLC Column, 50mm, 4.6mm, 10µm
The surface of the silica gel is coated with cellulose-tris(4-methylbenzoate)
USP L80 specified packing
CHIRALCEL ® OJ-3/SFC and CHIRALCEL ® OJ-H/SFC are positive-phase coated chiral columns for polysaccharide derivatives. The surface of the silica gel is coated with cellulose-tris(4-methylbenzoate).
OJ is currently the most widely used chiral filler in the world. The excellent separation ability and tolerance of OJ column have been reported in various literatures.
CHIRALCEL ® OJ-3/SFC / CHIRALCEL ® OJ-H/SFC is suitable for use in normal phase mobile phases and has the high pressure resistance necessary for use on SFCs.
Solvents that can be used are, for example:
Main mobile phase: CO 2
Auxiliary solvents: MeOH, EtOH, IPA, ACN (no more than 30%)
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Daicel 17G24 CHIRALCEL OJ-10 SFC Supercritical Fluid Chromatography Coated Polysaccharide Derivative Analytical HPLC Column, 150mm, 4.6mm, 10µm
The surface of the silica gel is coated with cellulose-tris(4-methylbenzoate)
USP L80 specified packing
CHIRALCEL ® OJ-3/SFC and CHIRALCEL ® OJ-H/SFC are positive-phase coated chiral columns for polysaccharide derivatives. The surface of the silica gel is coated with cellulose-tris(4-methylbenzoate).
OJ is currently the most widely used chiral filler in the world. The excellent separation ability and tolerance of OJ column have been reported in various literatures.
CHIRALCEL ® OJ-3/SFC / CHIRALCEL ® OJ-H/SFC is suitable for use in normal phase mobile phases and has the high pressure resistance necessary for use on SFCs.
Solvents that can be used are, for example:
Main mobile phase: CO 2
Auxiliary solvents: MeOH, EtOH, IPA, ACN (no more than 30%)
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Daicel 17G25 CHIRALCEL OJ-10 SFC Supercritical Fluid Chromatography Coated Polysaccharide Derivative Analytical HPLC Column, 250mm, 4.6mm, 10µm
The surface of the silica gel is coated with cellulose-tris(4-methylbenzoate)
USP L80 specified packing
CHIRALCEL ® OJ-3/SFC and CHIRALCEL ® OJ-H/SFC are positive-phase coated chiral columns for polysaccharide derivatives. The surface of the silica gel is coated with cellulose-tris(4-methylbenzoate).
OJ is currently the most widely used chiral filler in the world. The excellent separation ability and tolerance of OJ column have been reported in various literatures.
CHIRALCEL ® OJ-3/SFC / CHIRALCEL ® OJ-H/SFC is suitable for use in normal phase mobile phases and has the high pressure resistance necessary for use on SFCs.
Solvents that can be used are, for example:
Main mobile phase: CO 2
Auxiliary solvents: MeOH, EtOH, IPA, ACN (no more than 30%)
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Daicel 17G94 CHIRALCEL OJ-10 SFC Supercritical Fluid Chromatography Coated Polysaccharide Derivative Analytical HPLC Column, 150mm, 2.1mm, 10µm
The surface of the silica gel is coated with cellulose-tris(4-methylbenzoate)
USP L80 specified packing
CHIRALCEL ® OJ-3/SFC and CHIRALCEL ® OJ-H/SFC are positive-phase coated chiral columns for polysaccharide derivatives. The surface of the silica gel is coated with cellulose-tris(4-methylbenzoate).
OJ is currently the most widely used chiral filler in the world. The excellent separation ability and tolerance of OJ column have been reported in various literatures.
CHIRALCEL ® OJ-3/SFC / CHIRALCEL ® OJ-H/SFC is suitable for use in normal phase mobile phases and has the high pressure resistance necessary for use on SFCs.
Solvents that can be used are, for example:
Main mobile phase: CO 2
Auxiliary solvents: MeOH, EtOH, IPA, ACN (no more than 30%)