Endurus®

Endurus<sup>®</sup>
Endurus®

HPLC / UHPLC Columns

Classic reversed-phase retention and selectivity

Endurus® 100Å silica-based columns and media provide superior efficiency, stability and peak symmetry. These amazing heights of performance are achieved through high purity silica with a monomeric bonding chemistry to produce excellent peak symmetry for basic and acidic compounds.

→ High Efficiency
→ High Carbon Coverage
→ Excellent Reproducibility
→ Excellent Peak Symmetry

Read our Literature:
Endurus® HPLC / UHPLC Columns
Endurus® 100Å Specification
Endurus® 135Å Specification

    • Phase ………. C18
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 18
    • End Capped ………. Yes
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. Yes (95%)
    • USP L-Code ………. L1
    • Phase ………. C18 HP
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 18
    • End Capped ………. Double
    • pH Range ………. 2 to 9*
    • Aq. Compatible ………. Yes (70%)
    • USP L-Code ………. L1
  • Achieve retention of both polar analytes in aqueous mobile phases and hydrophobic analytes in organic mobile phases.
    • Phase ………. C18 Polar
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 18
    • End Capped ………. Yes Proprietary
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. 100%
    • USP L-Code ………. L1
  • The controlled polar silica surface of FORCE Endurus® phases delivers enhanced polar selectivity (EPS) alongside reversed-phase retention. Utilizing C18 and EPS C18 columns together forms a complementary pairing ideal for separating both polar and nonpolar analytes.
    • Phase ………. C18 EPS
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 14
    • End Capped ………. Yes Proprietary
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. 100%
    • USP L-Code ………. L1
  • Applications requiring high aqueous mobile phases.
    • Phase ………. C18 AQ
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 11
    • End Capped ………. Yes
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. 100%
    • USP L-Code ………. L1
  • Utilize trifunctional modification, ensuring superior stability and durability.
      → C18 Tri Alpha Classic
    • Phase ………. C18 Classic
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 19
    • End Capped ………. Yes
    • pH Range ………. 2 to 10
    • Aq. Compatible ………. 80%
    • USP L-Code ………. L1

    • → C18 Tri Alpha Polar
    • Phase ………. C18 Polar
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 19
    • End Capped ………. 40%
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. 100%
    • USP L-Code ………. L1

    • → C18 Tri Alpha HP
    • Phase ………. C18 HP
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 19
    • End Capped ………. Yes
    • pH Range ………. 1 to 8
    • Aq. Compatible ………. N/A
    • USP L-Code ………. L1
    • Phase ………. C8 HL
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 10
    • End Capped ………. Yes
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. N/A
    • USP L-Code ………. L7
    • Phase ………. Select RP
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 310
    • Carbon Load (%) ………. 14
    • End Capped ………. Yes
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. 80%
    • USP L-Code ………. L42
  • Ideal for basic drug analysis.
    • Phase ………. CN
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 7
    • End Capped ………. Yes
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. N/A
    • USP L-Code ………. L10
  • ✎ Use for carbohydrates or as a weak anion exchanger.
    • Phase ………. Amino
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 4
    • End Capped ………. No
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. N/A
    • USP L-Code ………. L8
  • ✎ Very polar analytes that cannot be retained by reversed-phase.
    • Phase ………. HILIC
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 8
    • End Capped ………. No
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. Only upto 30%
    • USP L-Code ………. L3
  • ✎ General purpose normal phase applications; Highly polar phase.
    ✎ Si–O
    • Phase ………. Silica
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. –
    • End Capped ………. No
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. N/A
    • USP L-Code ………. L3
  • ⌬ Selective for aromatic compounds in a variety of mobile phase conditions;
    ⌬ Lowest hydrophobic capacity.
      ⌬ Phenyl
    • Phase ………. ⌬ Phenyl
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 12
    • End Capped ………. Yes
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. N/A
    • USP L-Code ………. L11

    • ⌬ Phenyl Hexyl
    • Phase ………. ⌬ Phenyl Hexyl
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 14
    • End Capped ………. Yes
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. N/A
    • USP L-Code ………. L11

    • ⌬ Phenyl Hexyl HP
    • Phase ………. ⌬ Phenyl Hexyl HP
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 14
    • End Capped ………. Yes
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. N/A
    • USP L-Code ………. L11
  • Limited selectivity on C18, Increased retention of hydrophilic aromatics needed.
      ⌬ Bi Phenyl
    • Phase ………. ⌬-⌬ Bi Phenyl
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 330
    • Carbon Load (%) ………. 18
    • End Capped ………. Yes
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. Yes
    • USP L-Code ………. L11
  • ⚊ The Endurus® WP Column “wide pore” design for superior separation.
      ⚊ C18 WP
    • Phase ………. C18 WP
    • Pore Size (Å) ………. 150
    • Surface Area (m2/g) ………. 190
    • Carbon Load (%) ………. 11
    • End Capped ………. Yes
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. 80%
    • USP L-Code ………. L1

    • ⚊ C18 WP Tri Alpha Classic
    • Phase ………. C18 WP TAC
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 175
    • Carbon Load (%) ………. 12
    • End Capped ………. 40%
    • pH Range ………. 3 to 8
    • Aq. Compatible ………. 100%
    • USP L-Code ………. L1

    • ⚊ C18 WP Tri Alpha P
    • Phase ………. C18 WP TAP
    • Pore Size (Å) ………. 100
    • Surface Area (m2/g) ………. 175
    • Carbon Load (%) ………. 12
    • End Capped ………. 40%
    • pH Range ………. 3 to 8
    • Aq. Compatible ………. 100%
    • USP L-Code ………. L1
  • › Unique Extra Wide Pore offer cost-effective purification for large molecules.
      ⚊ C18 XWP
    • Phase ………. C18 XWP
    • Pore Size (Å) ………. 200
    • Surface Area (m2/g) ………. 145
    • Carbon Load (%) ………. 9
    • End Capped ………. Yes
    • pH Range ………. 2 to 8
    • Aq. Compatible ………. 80%
    • USP L-Code ………. L1

    • ⚊ C18 XWP Tri Alpha Classic
    • Phase ………. C18 XWP TAC
    • Pore Size (Å) ………. 200
    • Surface Area (m2/g) ………. 145
    • Carbon Load (%) ………. 10
    • End Capped ………. Yes
    • pH Range ………. 2 to 10
    • Aq. Compatible ………. 100%
    • USP L-Code ………. L1

    • ⚊ C18 XWP Tri Alpha P
    • Phase ………. C18 XWP TAP
    • Pore Size (Å) ………. 200
    • Surface Area (m2/g) ………. 145
    • Carbon Load (%) ………. 8
    • End Capped ………. 40%
    • pH Range ………. 3 to 8
    • Aq. Compatible ………. 100%
    • USP L-Code ………. L1