150 Beach Road, #25-02 Gateway West, Singapore 189720.
150 Beach Road, #25-02 Gateway West, Singapore 189720.

YMC-Triart C18

YMC-Triart C18

YMC-Triart C18 is an organic hybrid silica-based ODS column which contributed to its excellent durability even under high pH and high temperature. The versatile application makes it an ideal first choice column. It is compatible with 100% aqueous mobile phase.

YMC-Triart C18

YMC-Triart C18 is an organic hybrid silica-based ODS column which contributed to its excellent durability even under high pH and high temperature. The versatile application makes it an ideal first choice column. It is compatible with 100% aqueous mobile phase.

Specification:

Base
Organic/inorganic hybrid silica
Base
Organic/inorganic hybrid silica
Stationary phase
USP L1, C18
Stationary phase
USP L1, C18
Particle size
1.9 μm, 3 μm, 5 μm
Particle size
1.9 μm, 3 μm, 5 μm
Pore size
120 Å
Pore size
120 Å
Carbon content
20%
Carbon content
20%
Usable pH range
1 ~12
Usable pH range
1 ~12
Endcapping
Yes
Endcapping
Yes

Specification:

Base
Organic/inorganic hybrid silica
Base
Organic/inorganic hybrid silica
Stationary phase
USP L1, C18
Stationary phase
USP L1, C18
Particle size
1.9 μm, 3 μm, 5 μm
Particle size
1.9 μm, 3 μm, 5 μm
Pore size
120 Å
Pore size
120 Å
Carbon content
20%
Carbon content
20%
Usable pH range
1 ~12
Usable pH range
1 ~12
Endcapping
Yes
Endcapping
Yes

Specification:

Base
Organic/inorganic hybrid silica
Base
Organic/inorganic hybrid silica
Stationary phase
USP L1, C18
Stationary phase
USP L1, C18
Particle size
1.9 μm, 3 μm, 5 μm
Particle size
1.9 μm, 3 μm, 5 μm
Pore size
120 Å
Pore size
120 Å
Carbon content
20%
Carbon content
20%
Usable pH range
1 ~12
Usable pH range
1 ~12
Endcapping
Yes
Endcapping
Yes

Long column lifetime under chemically harsh conditions

Analysis of erythromycin is favourable under high temperature and acidic conditions (<pH 6.5). With high chemical stability of YMC-Triart C18, YMC-Triart C18 shows long column lifetime even for analysis under high pH and high temperature. Hence highly reproducible results is achieved.

 

Continuous analysis of erythromycin at pH 7.9, 70ºC

Column YMC-Triart C18 (3 μm, 120Å), 50 X 2.0 mmI.D.
Eluent 20 mM KH2PO4-K2HPO4 (pH 7.9)/acetonitrile/methanol (40/45/15)
Flow rate 0.2 mL/min
Temperature 70ºC
Detection UV at 210 nm
Injection 1 μL

 

Effective for analysis of highly polar compounds using 100% aqueous conditions

Conventional C18 columns generally show poor performance under 100% aqueous mobile phase conditions due to low surface hydration caused by repulsion between aqueous mobile phase and the hydrophobic bonded phase. With the ability to retain both moderate hydrogen bonding capacity and hydrophobicity on the surface by optimizing the bonding density, YMC Triart-C18 can be used to analyze highly polar compounds using 100% aqueous mobile phase.

  1. Oxalic Acid
  2. Tartaric Acid
  3. Glycolic Acid
  4. Formic Acid
  5. L-Malic Acid
  6. Malonic Acid
  7. Lactic Acid
  8. Acetic Acid
  9. Maleic Acid
  10. Citric Acid
  11. Succinic Acid
  12. Fumaric Acid
  13. Acrylic Acid
  14. Propionic Acid
Column YMC-Triart C18 (3 μm, 120 Å), 150 X 3.0 mmI.D.
Eluent 20 mM H3PO4
Flow rate 0.425 mL/min
Temperature 37ºC
Detection UV at 220 nm

 

Long column lifetime under chemically harsh conditions

Analysis of erythromycin is favourable under high temperature and acidic conditions (<pH 6.5). With high chemical stability of YMC-Triart C18, YMC-Triart C18 shows long column lifetime even for analysis under high pH and high temperature. Hence highly reproducible results is achieved.

 

Continuous analysis of erythromycin at pH 7.9, 70ºC

Column YMC-Triart C18 (3 μm, 120Å), 50 X 2.0 mmI.D.
Eluent 20 mM KH2PO4-K2HPO4 (pH 7.9)/acetonitrile/methanol (40/45/15)
Flow rate 0.2 mL/min
Temperature 70ºC
Detection UV at 210 nm
Injection 1 μL

 

Effective for analysis of highly polar compounds using 100% aqueous conditions

Conventional C18 columns generally show poor performance under 100% aqueous mobile phase conditions due to low surface hydration caused by repulsion between aqueous mobile phase and the hydrophobic bonded phase. With the ability to retain both moderate hydrogen bonding capacity and hydrophobicity on the surface by optimizing the bonding density, YMC Triart-C18 can be used to analyze highly polar compounds using 100% aqueous mobile phase.

  1. Oxalic Acid
  2. Tartaric Acid
  3. Glycolic Acid
  4. Formic Acid
  5. L-Malic Acid
  6. Malonic Acid
  7. Lactic Acid
  8. Acetic Acid
  9. Maleic Acid
  10. Citric Acid
  11. Succinic Acid
  12. Fumaric Acid
  13. Acrylic Acid
  14. Propionic Acid
Column YMC-Triart C18 (3 μm, 120 Å), 150 X 3.0 mmI.D.
Eluent 20 mM H3PO4
Flow rate 0.425 mL/min
Temperature 37ºC
Detection UV at 220 nm

 

Long column lifetime under chemically harsh conditions

Analysis of erythromycin is favourable under high temperature and acidic conditions (<pH 6.5). With high chemical stability of YMC-Triart C18, YMC-Triart C18 shows long column lifetime even for analysis under high pH and high temperature. Hence highly reproducible results is achieved.

 

Continuous analysis of erythromycin at pH 7.9, 70ºC

Column YMC-Triart C18 (3 μm, 120Å), 50 X 2.0 mmI.D.
Eluent 20 mM KH2PO4-K2HPO4 (pH 7.9)/acetonitrile/methanol (40/45/15)
Flow rate 0.2 mL/min
Temperature 70ºC
Detection UV at 210 nm
Injection 1 μL

 

Effective for analysis of highly polar compounds using 100% aqueous conditions

Conventional C18 columns generally show poor performance under 100% aqueous mobile phase conditions due to low surface hydration caused by repulsion between aqueous mobile phase and the hydrophobic bonded phase. With the ability to retain both moderate hydrogen bonding capacity and hydrophobicity on the surface by optimizing the bonding density, YMC Triart-C18 can be used to analyze highly polar compounds using 100% aqueous mobile phase.

  1. Oxalic Acid
  2. Tartaric Acid
  3. Glycolic Acid
  4. Formic Acid
  5. L-Malic Acid
  6. Malonic Acid
  7. Lactic Acid
  8. Acetic Acid
  9. Maleic Acid
  10. Citric Acid
  11. Succinic Acid
  12. Fumaric Acid
  13. Acrylic Acid
  14. Propionic Acid
Column YMC-Triart C18 (3 μm, 120 Å), 150 X 3.0 mmI.D.
Eluent 20 mM H3PO4
Flow rate 0.425 mL/min
Temperature 37ºC
Detection UV at 220 nm

 

Specification:

Base
Organic/inorganic hybrid silica
Base
Organic/inorganic hybrid silica
Stationary phase
USP L1, C18
Stationary phase
USP L1, C18
Particle size
1.9 μm, 3 μm, 5 μm
Particle size
1.9 μm, 3 μm, 5 μm
Pore size
120 Å
Pore size
120 Å
Carbon content
20%
Carbon content
20%
Usable pH range
1 ~12
Usable pH range
1 ~12
Endcapping
Yes
Endcapping
Yes

Specification:

Base
Organic/inorganic hybrid silica
Base
Organic/inorganic hybrid silica
Stationary phase
USP L1, C18
Stationary phase
USP L1, C18
Particle size
1.9 μm, 3 μm, 5 μm
Particle size
1.9 μm, 3 μm, 5 μm
Pore size
120 Å
Pore size
120 Å
Carbon content
20%
Carbon content
20%
Usable pH range
1 ~12
Usable pH range
1 ~12
Endcapping
Yes
Endcapping
Yes

Specification:

Base
Organic/inorganic hybrid silica
Base
Organic/inorganic hybrid silica
Stationary phase
USP L1, C18
Stationary phase
USP L1, C18
Particle size
1.9 μm, 3 μm, 5 μm
Particle size
1.9 μm, 3 μm, 5 μm
Pore size
120 Å
Pore size
120 Å
Carbon content
20%
Carbon content
20%
Usable pH range
1 ~12
Usable pH range
1 ~12
Endcapping
Yes
Endcapping
Yes

Long column lifetime under chemically harsh conditions

Analysis of erythromycin is favourable under high temperature and acidic conditions (<pH 6.5). With high chemical stability of YMC-Triart C18, YMC-Triart C18 shows long column lifetime even for analysis under high pH and high temperature. Hence highly reproducible results is achieved.

 

Continuous analysis of erythromycin at pH 7.9, 70ºC

Column YMC-Triart C18 (3 μm, 120Å), 50 X 2.0 mmI.D.
Eluent 20 mM KH2PO4-K2HPO4 (pH 7.9)/acetonitrile/methanol (40/45/15)
Flow rate 0.2 mL/min
Temperature 70ºC
Detection UV at 210 nm
Injection 1 μL

 

Effective for analysis of highly polar compounds using 100% aqueous conditions

Conventional C18 columns generally show poor performance under 100% aqueous mobile phase conditions due to low surface hydration caused by repulsion between aqueous mobile phase and the hydrophobic bonded phase. With the ability to retain both moderate hydrogen bonding capacity and hydrophobicity on the surface by optimizing the bonding density, YMC Triart-C18 can be used to analyze highly polar compounds using 100% aqueous mobile phase.

  1. Oxalic Acid
  2. Tartaric Acid
  3. Glycolic Acid
  4. Formic Acid
  5. L-Malic Acid
  6. Malonic Acid
  7. Lactic Acid
  8. Acetic Acid
  9. Maleic Acid
  10. Citric Acid
  11. Succinic Acid
  12. Fumaric Acid
  13. Acrylic Acid
  14. Propionic Acid
Column YMC-Triart C18 (3 μm, 120 Å), 150 X 3.0 mmI.D.
Eluent 20 mM H3PO4
Flow rate 0.425 mL/min
Temperature 37ºC
Detection UV at 220 nm

 

Long column lifetime under chemically harsh conditions

Analysis of erythromycin is favourable under high temperature and acidic conditions (<pH 6.5). With high chemical stability of YMC-Triart C18, YMC-Triart C18 shows long column lifetime even for analysis under high pH and high temperature. Hence highly reproducible results is achieved.

 

Continuous analysis of erythromycin at pH 7.9, 70ºC

Column YMC-Triart C18 (3 μm, 120Å), 50 X 2.0 mmI.D.
Eluent 20 mM KH2PO4-K2HPO4 (pH 7.9)/acetonitrile/methanol (40/45/15)
Flow rate 0.2 mL/min
Temperature 70ºC
Detection UV at 210 nm
Injection 1 μL

 

Effective for analysis of highly polar compounds using 100% aqueous conditions

Conventional C18 columns generally show poor performance under 100% aqueous mobile phase conditions due to low surface hydration caused by repulsion between aqueous mobile phase and the hydrophobic bonded phase. With the ability to retain both moderate hydrogen bonding capacity and hydrophobicity on the surface by optimizing the bonding density, YMC Triart-C18 can be used to analyze highly polar compounds using 100% aqueous mobile phase.

  1. Oxalic Acid
  2. Tartaric Acid
  3. Glycolic Acid
  4. Formic Acid
  5. L-Malic Acid
  6. Malonic Acid
  7. Lactic Acid
  8. Acetic Acid
  9. Maleic Acid
  10. Citric Acid
  11. Succinic Acid
  12. Fumaric Acid
  13. Acrylic Acid
  14. Propionic Acid
Column YMC-Triart C18 (3 μm, 120 Å), 150 X 3.0 mmI.D.
Eluent 20 mM H3PO4
Flow rate 0.425 mL/min
Temperature 37ºC
Detection UV at 220 nm

 

Long column lifetime under chemically harsh conditions

Analysis of erythromycin is favourable under high temperature and acidic conditions (<pH 6.5). With high chemical stability of YMC-Triart C18, YMC-Triart C18 shows long column lifetime even for analysis under high pH and high temperature. Hence highly reproducible results is achieved.

 

Continuous analysis of erythromycin at pH 7.9, 70ºC

Column YMC-Triart C18 (3 μm, 120Å), 50 X 2.0 mmI.D.
Eluent 20 mM KH2PO4-K2HPO4 (pH 7.9)/acetonitrile/methanol (40/45/15)
Flow rate 0.2 mL/min
Temperature 70ºC
Detection UV at 210 nm
Injection 1 μL

 

Effective for analysis of highly polar compounds using 100% aqueous conditions

Conventional C18 columns generally show poor performance under 100% aqueous mobile phase conditions due to low surface hydration caused by repulsion between aqueous mobile phase and the hydrophobic bonded phase. With the ability to retain both moderate hydrogen bonding capacity and hydrophobicity on the surface by optimizing the bonding density, YMC Triart-C18 can be used to analyze highly polar compounds using 100% aqueous mobile phase.

  1. Oxalic Acid
  2. Tartaric Acid
  3. Glycolic Acid
  4. Formic Acid
  5. L-Malic Acid
  6. Malonic Acid
  7. Lactic Acid
  8. Acetic Acid
  9. Maleic Acid
  10. Citric Acid
  11. Succinic Acid
  12. Fumaric Acid
  13. Acrylic Acid
  14. Propionic Acid
Column YMC-Triart C18 (3 μm, 120 Å), 150 X 3.0 mmI.D.
Eluent 20 mM H3PO4
Flow rate 0.425 mL/min
Temperature 37ºC
Detection UV at 220 nm

 

Specification:

Base
Organic/inorganic hybrid silica
Base
Organic/inorganic hybrid silica
Stationary phase
USP L1, C18
Stationary phase
USP L1, C18
Particle size
1.9 μm, 3 μm, 5 μm
Particle size
1.9 μm, 3 μm, 5 μm
Pore size
120 Å
Pore size
120 Å
Carbon content
20%
Carbon content
20%
Usable pH range
1 ~12
Usable pH range
1 ~12
Endcapping
Yes
Endcapping
Yes

Specification:

Base
Organic/inorganic hybrid silica
Base
Organic/inorganic hybrid silica
Stationary phase
USP L1, C18
Stationary phase
USP L1, C18
Particle size
1.9 μm, 3 μm, 5 μm
Particle size
1.9 μm, 3 μm, 5 μm
Pore size
120 Å
Pore size
120 Å
Carbon content
20%
Carbon content
20%
Usable pH range
1 ~12
Usable pH range
1 ~12
Endcapping
Yes
Endcapping
Yes

Specification:

Base
Organic/inorganic hybrid silica
Base
Organic/inorganic hybrid silica
Stationary phase
USP L1, C18
Stationary phase
USP L1, C18
Particle size
1.9 μm, 3 μm, 5 μm
Particle size
1.9 μm, 3 μm, 5 μm
Pore size
120 Å
Pore size
120 Å
Carbon content
20%
Carbon content
20%
Usable pH range
1 ~12
Usable pH range
1 ~12
Endcapping
Yes
Endcapping
Yes

Long column lifetime under chemically harsh conditions

Analysis of erythromycin is favourable under high temperature and acidic conditions (<pH 6.5). With high chemical stability of YMC-Triart C18, YMC-Triart C18 shows long column lifetime even for analysis under high pH and high temperature. Hence highly reproducible results is achieved.

 

Continuous analysis of erythromycin at pH 7.9, 70ºC

Column YMC-Triart C18 (3 μm, 120Å), 50 X 2.0 mmI.D.
Eluent 20 mM KH2PO4-K2HPO4 (pH 7.9)/acetonitrile/methanol (40/45/15)
Flow rate 0.2 mL/min
Temperature 70ºC
Detection UV at 210 nm
Injection 1 μL

 

Effective for analysis of highly polar compounds using 100% aqueous conditions

Conventional C18 columns generally show poor performance under 100% aqueous mobile phase conditions due to low surface hydration caused by repulsion between aqueous mobile phase and the hydrophobic bonded phase. With the ability to retain both moderate hydrogen bonding capacity and hydrophobicity on the surface by optimizing the bonding density, YMC Triart-C18 can be used to analyze highly polar compounds using 100% aqueous mobile phase.

  1. Oxalic Acid
  2. Tartaric Acid
  3. Glycolic Acid
  4. Formic Acid
  5. L-Malic Acid
  6. Malonic Acid
  7. Lactic Acid
  8. Acetic Acid
  9. Maleic Acid
  10. Citric Acid
  11. Succinic Acid
  12. Fumaric Acid
  13. Acrylic Acid
  14. Propionic Acid
Column YMC-Triart C18 (3 μm, 120 Å), 150 X 3.0 mmI.D.
Eluent 20 mM H3PO4
Flow rate 0.425 mL/min
Temperature 37ºC
Detection UV at 220 nm

 

Long column lifetime under chemically harsh conditions

Analysis of erythromycin is favourable under high temperature and acidic conditions (<pH 6.5). With high chemical stability of YMC-Triart C18, YMC-Triart C18 shows long column lifetime even for analysis under high pH and high temperature. Hence highly reproducible results is achieved.

 

Continuous analysis of erythromycin at pH 7.9, 70ºC

Column YMC-Triart C18 (3 μm, 120Å), 50 X 2.0 mmI.D.
Eluent 20 mM KH2PO4-K2HPO4 (pH 7.9)/acetonitrile/methanol (40/45/15)
Flow rate 0.2 mL/min
Temperature 70ºC
Detection UV at 210 nm
Injection 1 μL

 

Effective for analysis of highly polar compounds using 100% aqueous conditions

Conventional C18 columns generally show poor performance under 100% aqueous mobile phase conditions due to low surface hydration caused by repulsion between aqueous mobile phase and the hydrophobic bonded phase. With the ability to retain both moderate hydrogen bonding capacity and hydrophobicity on the surface by optimizing the bonding density, YMC Triart-C18 can be used to analyze highly polar compounds using 100% aqueous mobile phase.

  1. Oxalic Acid
  2. Tartaric Acid
  3. Glycolic Acid
  4. Formic Acid
  5. L-Malic Acid
  6. Malonic Acid
  7. Lactic Acid
  8. Acetic Acid
  9. Maleic Acid
  10. Citric Acid
  11. Succinic Acid
  12. Fumaric Acid
  13. Acrylic Acid
  14. Propionic Acid
Column YMC-Triart C18 (3 μm, 120 Å), 150 X 3.0 mmI.D.
Eluent 20 mM H3PO4
Flow rate 0.425 mL/min
Temperature 37ºC
Detection UV at 220 nm

 

Long column lifetime under chemically harsh conditions

Analysis of erythromycin is favourable under high temperature and acidic conditions (<pH 6.5). With high chemical stability of YMC-Triart C18, YMC-Triart C18 shows long column lifetime even for analysis under high pH and high temperature. Hence highly reproducible results is achieved.

 

Continuous analysis of erythromycin at pH 7.9, 70ºC

Column YMC-Triart C18 (3 μm, 120Å), 50 X 2.0 mmI.D.
Eluent 20 mM KH2PO4-K2HPO4 (pH 7.9)/acetonitrile/methanol (40/45/15)
Flow rate 0.2 mL/min
Temperature 70ºC
Detection UV at 210 nm
Injection 1 μL

 

Effective for analysis of highly polar compounds using 100% aqueous conditions

Conventional C18 columns generally show poor performance under 100% aqueous mobile phase conditions due to low surface hydration caused by repulsion between aqueous mobile phase and the hydrophobic bonded phase. With the ability to retain both moderate hydrogen bonding capacity and hydrophobicity on the surface by optimizing the bonding density, YMC Triart-C18 can be used to analyze highly polar compounds using 100% aqueous mobile phase.

  1. Oxalic Acid
  2. Tartaric Acid
  3. Glycolic Acid
  4. Formic Acid
  5. L-Malic Acid
  6. Malonic Acid
  7. Lactic Acid
  8. Acetic Acid
  9. Maleic Acid
  10. Citric Acid
  11. Succinic Acid
  12. Fumaric Acid
  13. Acrylic Acid
  14. Propionic Acid
Column YMC-Triart C18 (3 μm, 120 Å), 150 X 3.0 mmI.D.
Eluent 20 mM H3PO4
Flow rate 0.425 mL/min
Temperature 37ºC
Detection UV at 220 nm

 

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150 Beach Road, #25-02 Gateway West, Singapore 189720.

Tel : +65 6392 2643

Fax : +65 6392 2856

Email : sales@ymc.sg

YMC Singapore Tradelinks Pte. Ltd.

150 Beach Road, #25-02 Gateway West, Singapore 189720.

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