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Daicel 21822 CHIRALPAK ® MA(+) Ligand Exchange Analytical HPLC Chiral Column, 4.6mm, 50mm, 3µm
CHIRALPAK ® MA (+) is a ligand exchange chiral column, and the surface of the silica gel is coated with an L-alanine derivative.
For the mobile phase of 0.1 ~ 2mM CuSO4 aqueous solution.
The surface of the silica gel is coated with an L-alanine derivative
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Daicel 25625 CHIRALPAK ® WH Ligand Exchange Analytical HPLC Chiral Column, 4.6mm, 250mm, 10µm
CHIRALPAK ® WH
The surface of silica gel is covalently bonded to L-proline derivatives
USP L32 Specifies the filler
CHIRALPAK ® WH is a ligand exchange chiral column, and the surface of silica gel is covalently bonded to L-proline derivatives.
For the mobile phase of 0.1 ~ 2mM CuSO4 aqueous solution.
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Daicel 25622 CHIRALPAK ® WH Ligand Exchange Analytical Guard HPLC Chiral Column, 4.6mm, 50mm, 10µm
CHIRALPAK ® WH
The surface of silica gel is covalently bonded to L-proline derivatives
USP L32 Specifies the filler
CHIRALPAK ® WH is a ligand exchange chiral column, and the surface of silica gel is covalently bonded to L-proline derivatives.
For the mobile phase of 0.1 ~ 2mM CuSO4 aqueous solution.
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Daicel 81522 CHIRALPAK ® IB-3 Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 50mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
IB solvent-resistant chiral column, silica gel surface covalently bonded with 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.
Solvents that can be used, for example:
Positive phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Reverse phase: H 2 O, IPA, MeOH
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Daicel 81523 CHIRALPAK ® IB-3 Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 100mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
IB solvent-resistant chiral column, silica gel surface covalently bonded with 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.
Solvents that can be used, for example:
Positive phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Reverse phase: H 2 O, IPA, MeOH
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Daicel 81525 CHIRALPAK ® IB-3 Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 250mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
IB solvent-resistant chiral column, silica gel surface covalently bonded with 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.
Solvents that can be used, for example:
Positive phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Reverse phase: H 2 O, IPA, MeOH
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Daicel 81592 CHIRALPAK ® IB-3 Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 2.1mm, 50mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
IB solvent-resistant chiral column, silica gel surface covalently bonded with 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.
Solvents that can be used, for example:
Positive phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Reverse phase: H 2 O, IPA, MeOH
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Daicel 81593 CHIRALPAK ® IB-3 Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 2.1mm, 100mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
IB solvent-resistant chiral column, silica gel surface covalently bonded with 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.
Solvents that can be used, for example:
Positive phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Reverse phase: H 2 O, IPA, MeOH
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Daicel 81594 CHIRALPAK ® IB-3 Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 2.1mm, 150mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
IB solvent-resistant chiral column, silica gel surface covalently bonded with 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.
Solvents that can be used, for example:
Positive phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Reverse phase: H 2 O, IPA, MeOH
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Daicel 81595 CHIRALPAK ® IB-3 Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 2.1mm, 250mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
IB solvent-resistant chiral column, silica gel surface covalently bonded with 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.
Solvents that can be used, for example:
Positive phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Reverse phase: H 2 O, IPA, MeOH
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Daicel 81524 CHIRALPAK ® IB-3 Polysaccharide Derivatives Solvent-Rich Analytical HPLC Chiral Column, 4.6mm, 150mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
IB solvent-resistant chiral column, silica gel surface covalently bonded with 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.
Solvents that can be used, for example:
Positive phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Reverse phase: H 2 O, IPA, MeOH
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Daicel 87256 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Preparative HPLC Chiral Column, 50mm, 500mm, 20µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 87266 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Preparative HPLC Chiral Column, 100mm, 500mm, 20µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 87375 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Preparative HPLC Chiral Column, 30mm, 250mm, 5µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 87355 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Preparative HPLC Chiral Column, 50mm, 250mm, 5µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 81511 CHIRALPAK ® IB-3 Polysaccharide Derivatives Solvent-Rich Chiral Guard Cartridges (Pack of 3), 4mm, 10mm, 3µm
Silica gel is covalently bonded to cellulose-tris (3,5-dimethylphenylcarbamate)
IB solvent-resistant chiral column, silica gel surface covalently bonded with 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.
Solvents that can be used, for example:
Positive phase: n-Hexane, IPA, EtOH
Special mobile phase: Ethyl acetate, CH 3 Cl, THF, MTBE
Reverse phase: H 2 O, IPA, MeOH
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Daicel 87224 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 4.6mm, 150mm, 20µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 87225 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 4.6mm, 250mm, 20µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 87226 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 4.6mm, 300mm, 20µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 87322 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 4.6mm, 50mm, 5µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 87323 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 4.6mm, 100mm, 5µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 87324 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 4.6mm, 150mm, 5µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 87325 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 4.6mm, 250mm, 5µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 87394 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 2.1mm, 150mm, 5µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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 87395 CHIRALPAK ® IG Polysaccharide Derivatives Solvent-based Analytical HPLC Chiral Column, 2.1mm, 250mm, 5µm
The surface of silica was covalently bound with amylose - tris (3-chloro-5-methylphenylcarbamate)
IG solvent-resistant chiral column with amylose-tris (3-chloro-5-methylphenylcarbamate) 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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