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Merck

TLC Analysis of Caffeine in Coffee Samples, Quantification of Analyte Concentration

TLC Analysis of Caffeine in Coffee Samples, Quantification of Analyte Concentration application for TLC

材料

附屬品

產品號碼
描述
訂價

瓶形喷雾器

capacity 240 mL

矩形 TLC 展开罐,完整

L × H × W 27.0 cm × 26.5 cm × 7.0 cm

Sigma 薄层色谱喷雾盒

Spectroline®Spectroline E 系列紫外灯

output8 W, AC/DC input 115 V AC

矩形 TLC 展开罐,完整

L × H × W 7.5 cm × 15.5 cm × 8.0 cm

Hamilton® 薄层色谱注射器

1702, volume 25 μL, needle size 22s ga, needle L 51 mm (2 in.),

coated tip

Spectroline®Spectroline E 系列紫外灯

output6 W, AC/DC input 120 V AC

Hamilton® 薄层色谱注射器

1705, volume 50 μL, needle size 22 ga, needle L 51 mm (2 in.),

coated tip

Hamilton® 薄层色谱注射器

1701, volume 10 μL, needle size 26s ga, needle type, fixed, needle L 51 mm (2 in.),

coated tip

矩形 TLC 展开罐,完整

L × H × W 17.5 cm × 16.0 cm × 8.2 cm

Spectroline®Spectroline E 系列紫外灯

output6 W, AC/DC input 230 V AC

Spectroline®Spectroline E 系列紫外灯

output4 W, AC/DC input 230 V AC

Spectroline®Spectroline E 系列紫外灯

output8 W, AC/DC input 230 V AC

Latch-lid 薄层色谱展开槽

For use with 10 cm × 10 cm plates

Hamilton® 薄层色谱注射器

1710, volume 100 μL, needle size 22 ga, needle L 51 mm (2 in.),

coated tip

Latch-lid 薄层色谱展开槽

For use with 20 cm × 20 cm plates

Spectroline®Spectroline E 系列紫外灯

output4 W, AC/DC input 115 V AC

Kimble® microcapillary pipettes

Kimble® microcapillary pipettes

Kimble® microcapillary pipettes

capacity 20 μL, accuracy: ±0.5%

用于薄层层析板的试剂喷雾器

volume 250 mL, Bottle-Type

CONDITIONS

sample preparation

The boiled coffee samples were extracted and filtered with a 0.45 μm Millex syringe filter.

plate

HPTLC Silica gel 60 F254, 20 cm x 10 cm (1.05642.0001)

eluent

[A] acetonitrile; [B] methanol; [C] n-Heptane; (6:4:1, A:B:C)

migration distance

5 cm

sample

0.1 μL to 2.0 μL

detector

UV, 254 nm

描述

分析報告

Abstract: HPTLC (High Performance Thin Layer Chromatography) is a very useful analytical technique with very low sample preparation. Shown in the example: the quantification of caffeine in different coffee samples. The boiled coffee samples
were extracted and filtered with a 0.45 μm syringe filter. The plate was pre-conditioned with the mobile phase. After chromatographic separation the plate was scanned with a TLC-Scanner and subsequently quantified.

Results: Caffeine was detected under UV light (254 nm, hRf = 56, Fig. 1), (quantification information Fig. 2). A triple determination of each sample is possible in parallel.

Conclusion: These results demonstrate that caffeine can be easily quantified by TLC with a three-fold determination and minimal sample preparation.