Coolest 24 Separation Methods

 

SMT BWAX-35-150-250 Bulk WAX HPLC Column Separation Methods Technology 35-50 µm Particle Size 150Å Pore Size 250 g Mass

SMT BWAX-35-150-250 Bulk WAX HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 250 g Mass

SMT BWAX-35-150-250 Bulk WAX HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 250 g Mass - Smt-wax bulk packings are silica-based weak anion exchange packing materials developed for separation of anionic compounds. Smt wax bulk packings consist of chemically attached hydrophilic surface derivatized to form polyethyleneimine functionality. The technique of sam is used in the bonding process to significantly increase the functional ligand density.

 

SMT PhenH-3-10015 Reversed-Phase Phenyl-Hexyl HPLC Column Separation Methods Technology 3 µm Particle Size 100Å Pore Size 150 mm Length

SMT PhenH-3-100/15 Reversed-Phase Phenyl-Hexyl HPLC Column, Separation Methods Technology, 3 µm Particle Size, 100Å Pore Size, 150 mm Length

SMT PhenH-3-100/15 Reversed-Phase Phenyl-Hexyl HPLC Column, Separation Methods Technology, 3 µm Particle Size, 100Å Pore Size, 150 mm Length - Smt phenyl-hexyl column or phenh column, like the other smt phenyl columns, provides unique selectivity for aro- matic compounds when compared to other reversed-phase packing’s such as c18 and c8. The ìÛ-electrons of the phe- nyl group can interact with the aromatic ring of an analyze to increase retention relative to less or non-aromatic analytes. Smt phenh has an extended alkyl chain (hexyl) con guard- that impacts a unique mixed mode characteristics on the phenyl column. Unlike, the standard phenyl column, phenyl-hexyl allows much greater retention and separation of the aromatic compounds through its extend- ed hexyl hydrocarbon functional group. Phenyl-hexyl columns provide unique selectivity for aro- matic compounds when compared to other reversed-phase packing’s such as c18 and c8. Unique features offers mixed-mode characteristics for preferential retain- of aromatic compounds through its extended alkyl chain complimentary to other reversed-phase materials such as c18, c8, and c4 ideal for the separation of proteins, peptides and other biomolecules.

 

Separation Methods Technologies MEB1-5-10075 Reversed Phase MEB Column 100A 5 µm 75 mm x 46 mm

Separation Methods Technologies MEB1-5-100/7.5 Reversed Phase MEB Column, 100A, 5 µm, 75 mm x 4.6 mm

Separation Methods Technologies MEB1-5-100/7.5 Reversed Phase MEB Column, 100A, 5 µm, 75 mm x 4.6 mm - Available for analytical, semi-prep, prep and process scale. Ph stable and extremely long lasting. Effective and reliable (from batch-to-batch) all columns are tested and include certificate of analysis. Excellent silanol site coverage vs other competitors. Total coverage technology for ultra-stable and super-rugged bonded phases (patented and proprietary).

 

SMT BSCX-35-150-1000 Bulk SCX HPLC Column Separation Methods Technology 35-50 µm Particle Size 150Å Pore Size 1000 g Mass

SMT BSCX-35-150-1000 Bulk SCX HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 1000 g Mass

SMT BSCX-35-150-1000 Bulk SCX HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 1000 g Mass - Superior selectivity and efficiency in the separation of proteins and biomolecules with medium to high [isoelectric point] or ph values. High stability under extreme operating conditions. Separation methods technology. High density sulfonic acid functional groups that provide improved recovery compared to conventional scx bulk packing’s.

 

SMT BS-35-150-25000 Bulk Silica HPLC Column Separation Methods Technology 35-50 µm Particle Size 150Å Pore Size 25000 g Mass 0

SMT BS-35-150-25000 Bulk Silica HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 25000 g Mass, #0

SMT BS-35-150-25000 Bulk Silica HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 25000 g Mass, #0 - Smt manufactures the most reliable silica based packing materials available in the market today. These columns have performed well in the separation of many polar compounds such as pesticides and organic acids. When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. Silica gel and bulk packing materials for process scale applications are available in various particle sizes and pore sizes 10, 20, 35, 60µm and 60, 100, 150 and 300Å are stock sizes. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. Perfect for solid phase extraction and process scale purifications. Ideal for applications in flash cartridges. Smt uses high purity silica packing materials that are available in variety of particle and pore sizes.

 

Separation Methods Technologies BCP-35-60-250 Bulk Cyanopropyl 60A Pore Size 250 g 35 µm-50 µm

Separation Methods Technologies BCP-35-60-250 Bulk Cyanopropyl, 60A Pore Size, 250 g, 35 µm-50 µm

Separation Methods Technologies BCP-35-60-250 Bulk Cyanopropyl, 60A Pore Size, 250 g, 35 µm-50 µm - Ph stable and extremely long lasting. Available for analytical, semi-prep, prep and process scale. Excellent silanol site coverage vs other competitors. Effective and reliable (from batch-to-batch) all columns are tested and include certificate of analysis. Total coverage technology for ultra-stable and super-rugged bonded phases (patented and proprietary).

 

SMT BSCX-35-150-250 Bulk SCX HPLC Column Separation Methods Technology 35-50 µm Particle Size 150Å Pore Size 250 g Mass 0

SMT BSCX-35-150-250 Bulk SCX HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 250 g Mass, #0

SMT BSCX-35-150-250 Bulk SCX HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 250 g Mass, #0 - High density sulfonic acid functional groups that provide improved recovery compared to conventional scx bulk packing’s. Separation methods technology. High stability under extreme operating conditions. Superior selectivity and efficiency in the separation of proteins and biomolecules with medium to high [isoelectric point] or ph values.

 

Separation Methods Technologies ChiralSep2-5-10025 Specialty Chiral 2 Column 5 um 100A 250 mm x 46 mm

Separation Methods Technologies ChiralSep2-5-100/25 Specialty Chiral 2 Column, 5 um, 100A, 250 mm x 4.6 mm

Separation Methods Technologies ChiralSep2-5-100/25 Specialty Chiral 2 Column, 5 um, 100A, 250 mm x 4.6 mm - Available for analytical, semi-prep, prep and process scale. Excellent silanol site coverage vs other competitors. Total coverage technology for ultra-stable and super-rugged bonded phases (patented and proprietary). Effective and reliable (from batch-to-batch) all columns are tested and include certificate of analysis. Ph stable and extremely long lasting.

 

Separation Methods Technologies O-5-300152 Reversed Phase C8 Column 5 um 300A 150 mm x 21 mm

Separation Methods Technologies O-5-300/152 Reversed Phase C8 Column, 5 um, 300A, 150 mm x 2.1 mm

Separation Methods Technologies O-5-300/152 Reversed Phase C8 Column, 5 um, 300A, 150 mm x 2.1 mm - Total coverage technology for ultra-stable and super-rugged bonded phases (patented and proprietary). Available for analytical, semi-prep, prep and process scale. Excellent silanol site coverage vs other competitors. Ph stable and extremely long lasting. Effective and reliable (from batch-to-batch) all columns are tested and include certificate of analysis.

 

SMT PhenH-3-10025 Reversed-Phase Phenyl-Hexyl HPLC Column Separation Methods Technology 3 µm Particle Size 100Å Pore Size 46 mm 250 mm Length 0

SMT PhenH-3-100/25 Reversed-Phase Phenyl-Hexyl HPLC Column, Separation Methods Technology, 3 µm Particle Size, 100Å Pore Size, 4.6 mm, 250 mm Length, #0

SMT PhenH-3-100/25 Reversed-Phase Phenyl-Hexyl HPLC Column, Separation Methods Technology, 3 µm Particle Size, 100Å Pore Size, 4.6 mm, 250 mm Length, #0 - The ìÛ-electrons of the phe- nyl group can interact with the aromatic ring of an analyte to increase retention relative to less or non-aromatic analytes. Unique features offers mixed-mode characteristics for preferential reten- tion of aromatic compounds through its extended alkyl chain complimentary to other reversed-phase materials such as c18, c8, and c4 ideal for the separation of proteins, peptides and other biomolecules. Phenyl-hexyl columns provide unique selectivity for aro- matic compounds when compared to other reversed-phase packing’s such as c18 and c8. Smt phenyl-hexyl column or phenh column, like the other smt phenyl columns, provides unique selectivity for aro- matic compounds when compared to other reversed-phase packing’s such as c18 and c8. Smt phenh has an extended alkyl chain (hexyl) con gura- tion that impacts a unique mixed mode characteristics on the phenyl column. Unlike, the standard phenyl column, phenyl-hexyl allows much greater retention and separation of the aromatic compounds through its extend- ed hexyl hydrocarbon functional group.

 

Separation Methods Technologies OD-5-100254 Reversed Phase C18 Column 5 um 100A 250 mm x 39 mm

Separation Methods Technologies OD-5-100/254 Reversed Phase C18 Column, 5 um, 100A, 250 mm x 3.9 mm

Separation Methods Technologies OD-5-100/254 Reversed Phase C18 Column, 5 um, 100A, 250 mm x 3.9 mm - Total coverage technology for ultra-stable and super-rugged bonded phases (patented and proprietary). Ph stable and extremely long lasting. Effective and reliable (from batch-to-batch) all columns are tested and include certificate of analysis. Excellent silanol site coverage vs other competitors. Available for analytical, semi-prep, prep and process scale.

 

SMT PhenH-3-10075 Reversed-Phase Phenyl-Hexyl HPLC Column Separation Methods Technology 3µm Particle Size 100Å Pore Size

SMT PhenH-3-100/7.5 Reversed-Phase Phenyl-Hexyl HPLC Column, Separation Methods Technology, 3µm Particle Size, 100Å Pore Size

SMT PhenH-3-100/7.5 Reversed-Phase Phenyl-Hexyl HPLC Column, Separation Methods Technology, 3µm Particle Size, 100Å Pore Size - The ìÛ-electrons of the phe- nyl group can interact with the aromatic ring of an analyte to increase retention relative to less or non-aromatic analytes. Unique features offers mixed-mode characteristics for preferential reten- tion of aromatic compounds through its extended alkyl chain complimentary to other reversed-phase materials such as c18, c8, and c4 ideal for the separation of proteins, peptides and other biomolecules. Unlike, the standard phenyl column, phenyl-hexyl allows much greater retention and separation of the aromatic compounds through its extend- ed hexyl hydrocarbon functional group. Smt phenyl-hexyl column or phenh column, like the other smt phenyl columns, provides unique selectivity for aro- matic compounds when compared to other reversed-phase packings such as c18 and c8. Phenyl-hexyl columns provide unique selectivity for aro- matic compounds when compared to other reversed-phase packings such as c18 and c8. Smt phenh has an extended alkyl chain (hexyl) con gura- tion that impacts a unique mixed mode characteristics on the phenyl column.

 

Separation Methods Technologies OD-5-300101 Reversed Phase C18 Column 5 um 300A 100 mm x 10 mm

Separation Methods Technologies OD-5-300/101 Reversed Phase C18 Column, 5 um, 300A, 100 mm x 1.0 mm

Separation Methods Technologies OD-5-300/101 Reversed Phase C18 Column, 5 um, 300A, 100 mm x 1.0 mm - Effective and reliable (from batch-to-batch) all columns are tested and include certificate of analysis. Excellent silanol site coverage vs other competitors. Ph stable and extremely long lasting. Available for analytical, semi-prep, prep and process scale. Total coverage technology for ultra-stable and super-rugged bonded phases (patented and proprietary).

 

SMT PhenH-5-3005 Reversed-Phase Phenyl-Hexyl HPLC Column Separation Methods Technology 5 µm Particle Size 300Å Pore Size 46 mm Inside Diameter  50 mm Length

SMT PhenH-5-300/5 Reversed-Phase Phenyl-Hexyl HPLC Column, Separation Methods Technology, 5 µm Particle Size, 300Å Pore Size, 4.6 mm Inside Diameter , 50 mm Length

SMT PhenH-5-300/5 Reversed-Phase Phenyl-Hexyl HPLC Column, Separation Methods Technology, 5 µm Particle Size, 300Å Pore Size, 4.6 mm Inside Diameter , 50 mm Length - The ìÛ-electrons of the phe- nyl group can interact with the aromatic ring of an analyte to increase retention relative to less or non-aromatic analytes. Smt phenh has an extended alkyl chain (hexyl) con gura- tion that impacts a unique mixed mode characteristics on the phenyl column. Smt phenyl-hexyl column or phenh column, like the other smt phenyl columns, provides unique selectivity for aro- matic compounds when compared to other reversed-phase packings such as c18 and c8. Unique features offers mixed-mode characteristics for preferential reten- tion of aromatic compounds through its extended alkyl chain complimentary to other reversed-phase materials such as c18, c8, and c4 ideal for the separation of proteins, peptides and other biomolecules. Phenyl-hexyl columns provide unique selectivity for aro- matic compounds when compared to other reversed-phase packings such as c18 and c8. Unlike, the standard phenyl column, phenyl-hexyl allows much greater retention and separation of the aromatic compounds through its extend- ed hexyl hydrocarbon functional group.

 

Separation Methods Technologies SAX-10-30025 Ion Exchange SAX Column 300A 10 µm 250 mm x 46 mm

Separation Methods Technologies SAX-10-300/25 Ion Exchange SAX Column, 300A, 10 µm, 250 mm x 4.6 mm

Separation Methods Technologies SAX-10-300/25 Ion Exchange SAX Column, 300A, 10 µm, 250 mm x 4.6 mm - Total coverage technology for ultra-stable and super-rugged bonded phases (patented and proprietary). Ph stable and extremely long lasting. Available for analytical, semi-prep, prep and process scale. Excellent silanol site coverage vs other competitors. Effective and reliable (from batch-to-batch) all columns are tested and include certificate of analysis.

 

SMT BWAX-35-150-100 Bulk WAX HPLC Column Separation Methods Technology 35-50µm Particle Size 150Å Pore Size 100 g Mass

SMT BWAX-35-150-100 Bulk WAX HPLC Column, Separation Methods Technology, 35-50µm Particle Size, 150Å Pore Size, 100 g Mass

SMT BWAX-35-150-100 Bulk WAX HPLC Column, Separation Methods Technology, 35-50µm Particle Size, 150Å Pore Size, 100 g Mass - Smt wax bulk packings consist of chemically attached hydrophilic surface derivatized to form polyethyleneimine functionality. Smt-wax bulk packings are silica-based weak anion exchange packing materials developed for separation of anionic compounds. The technique of sam is used in the bonding process to significantly increase the functional ligand density.

 

Separation Methods Technologies PHEN1-5-1005 Reversed Phase Phenyl1 Column 5 um 100A 50 mm x 46 mm

Separation Methods Technologies PHEN1-5-100/5 Reversed Phase Phenyl1 Column, 5 um, 100A, 50 mm x 4.6 mm

Separation Methods Technologies PHEN1-5-100/5 Reversed Phase Phenyl1 Column, 5 um, 100A, 50 mm x 4.6 mm - Available for analytical, semi-prep, prep and process scale. Effective and reliable (from batch-to-batch) all columns are tested and include certificate of analysis. Total coverage technology for ultra-stable and super-rugged bonded phases (patented and proprietary). Ph stable and extremely long lasting. Excellent silanol site coverage vs other competitors.

 

SMT BWCX-35-150-250 Bulk WCX HPLC Column Separation Methods Technology 35-50µm Particle Size 150Å Pore Size 250 g Mass

SMT BWCX-35-150-250 Bulk WCX HPLC Column, Separation Methods Technology, 35-50µm Particle Size, 150Å Pore Size, 250 g Mass

SMT BWCX-35-150-250 Bulk WCX HPLC Column, Separation Methods Technology, 35-50µm Particle Size, 150Å Pore Size, 250 g Mass - Smt wcx bulk packings consist of chemically attached hydrophilic surface derivatized to form carboxylic acid functionality. The technique of sam is used in the bonding process to significantly increase the functional ligand density. Smt wcx bulk packings are silica-based weak cation exchange packing materials developed for separation of cationic compounds.

 

SMT BSAX-35-150-100 Bulk SAX HPLC Column Separation Methods Technology 35-50 µm Particle Size 150Å Pore Size 100 g Mass 0

SMT BSAX-35-150-100 Bulk SAX HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 100 g Mass, #0

SMT BSAX-35-150-100 Bulk SAX HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 100 g Mass, #0 - Smt sax bulk packing’s are silica-based strong anion exchange packing developed for separation of anionic compounds. Smt sax bulk packing’s consist of chemically attached hydrophilic surface derivative to form quaternary amine. The technique of sam is used in the bonding process to significantly increase the functional ligand density.

 

SMT BWCX-35-150-1000 Bulk WCX HPLC Column Separation Methods Technology 35-50 µm Particle Size 150Å Pore Size 1000 g Mass

SMT BWCX-35-150-1000 Bulk WCX HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 1000 g Mass

SMT BWCX-35-150-1000 Bulk WCX HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 1000 g Mass - Superior selectivity and efficiency in the separation of proteins an biomolecules high stability under extreme operating conditions. High density carboxylic acid functional groups provide much better analyte recovery compared to conventional wcx. Separation methods technology. Unit count type is hplc column. Made in united states.

 

SMT BDEAE-35-150-100 Bulk DEAE HPLC Column Separation Methods Technology 35-50 µm Particle Size 150Å Pore Size 100 g Mass

SMT BDEAE-35-150-100 Bulk DEAE HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 100 g Mass

SMT BDEAE-35-150-100 Bulk DEAE HPLC Column, Separation Methods Technology, 35-50 µm Particle Size, 150Å Pore Size, 100 g Mass - Fast reequilibration and very negligible non-specific protein interaction. Highly stable silica-based anion exchange type packing material minimal compressibility and will not swell in organic solvents or in the presence of ion pairing reagents. High density tertiary amine functional groups that provide better selectivity and recovery compared to conventional deae. Separation methods technology.

 

Separation Methods Technologies O-5-300254 Reversed Phase C8 Column 5 um 300A 250 mm x 39 mm

Separation Methods Technologies O-5-300/254 Reversed Phase C8 Column, 5 um, 300A, 250 mm x 3.9 mm

Separation Methods Technologies O-5-300/254 Reversed Phase C8 Column, 5 um, 300A, 250 mm x 3.9 mm - Available for analytical, semi-prep, prep and process scale. Total coverage technology for ultra-stable and super-rugged bonded phases (patented and proprietary). Effective and reliable (from batch-to-batch) all columns are tested and include certificate of analysis. Excellent silanol site coverage vs other competitors. Ph stable and extremely long lasting.

 

Separation Methods Technologies MEB2-5-30030 Reversed Phase MEB Column 300A 5 µm 300 mm x 46 mm

Separation Methods Technologies MEB2-5-300/30 Reversed Phase MEB Column, 300A, 5 µm, 300 mm x 4.6 mm

Separation Methods Technologies MEB2-5-300/30 Reversed Phase MEB Column, 300A, 5 µm, 300 mm x 4.6 mm - Available for analytical, semi-prep, prep and process scale. Excellent silanol site coverage vs other competitors. Effective and reliable (from batch-to-batch) all columns are tested and include certificate of analysis. Total coverage technology for ultra-stable and super-rugged bonded phases (patented and proprietary). Ph stable and extremely long lasting.

 

Separation Methods Technologies Hex-5-10010 Reversed Phase C6 Column 100A 5 µm 100 mm x 46 mm

Separation Methods Technologies Hex-5-100/10 Reversed Phase C6 Column, 100A, 5 µm, 100 mm x 4.6 mm

Separation Methods Technologies Hex-5-100/10 Reversed Phase C6 Column, 100A, 5 µm, 100 mm x 4.6 mm - Ph stable and extremely long lasting. Total coverage technology for ultra-stable and super-rugged bonded phases (patented and proprietary). Excellent silanol site coverage vs other competitors. Available for analytical, semi-prep, prep and process scale. Effective and reliable (from batch-to-batch) all columns are tested and include certificate of analysis.





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