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S-10-300/158
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-694)
Price: $2,035.74List Price: $2,261.93When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. -
S-10-100/1510
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-699)
Price: $2,228.70List Price: $2,476.33When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. -
S-10-300/1510
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-700)
Price: $2,228.70List Price: $2,476.33When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. -
S-10-100/258
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-717)
Price: $2,518.14List Price: $2,797.93When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. -
S-10-300/258
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-718)
Price: $2,518.14List Price: $2,797.93When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. -
S-10-100/2510
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-723)
Price: $2,711.10List Price: $3,012.33When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. -
S-10-300/2510
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-724)
Price: $2,711.10List Price: $3,012.33When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. -
S-10-100/308
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-766)
Price: $3,097.02List Price: $3,441.14When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. -
S-10-300/308
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-767)
Price: $3,097.02List Price: $3,441.14When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. -
S-10-100/3010
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-776)
Price: $3,289.98List Price: $3,655.54When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. -
S-10-300/3010
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-777)
Price: $3,289.98List Price: $3,655.54When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest. -
S-10-100/1522
Normal Phase Silica Column: Particle Size: 10 æm, Pore Size: (C08-0602-826)
Price: $3,868.87List Price: $4,298.74When silica is used as the stationary phase, the functional groups involved in separation are the surface silanols. However, metal impurities in silica may provide additional sites of interaction for solutes of interest.