TLC Plates
Macherey-Nagel™ RP-18 W/UV254 Glass HPTLC Plates
Designed for use in HPTLC. Macherey-Nagel™ RP-18 W/UV254 Glass HPTLC Plates have a layer of modified nano silica with a fluorescent indicator for short-wave UV (254nm). It is wettable with water, acid-resistant and stable at pH 2–10.
Macherey-Nagel™ Standard SIL G Silica Layers on Glass Plates
Separate non-volatile mixtures with unmodified standard silica layers for TLC (Thin-Layer Chromatography). Standard SIL G silica layers on glass plates come in a variety of plate sizes and layer thicknesses. Select a fluorescent indicator and choose from a variety of pack sizes.
DWK Life Sciences Kimble™ Chromatography TLC Plate Streaker
A simple device for uniformly streaking TLC plates.
MP Biomedicals™ EcoChrome™ Silica TLC Plate
Used as a defoamer component. In hydrated form, it is used in toothpaste as a hard abrasive to remove tooth plaque. SiO
Macherey-Nagel™ Nano-SIL Unmodified HPTLC Silica Layers on Glass Plates
Separate mixtures with sharp separations, short developing times and short migration distances. Nano-SIL Unmodified HPTLC Silica Layers on Glass Plates have an increased detection sensitifvity compared to SIL G plates.
Macherey-Nagel™ Adamant™ Unmodified Standard Silica Layers for TLC, UV254
Increase separation efficiency and maximize resolution during TLC (thin-layer chromatography). Adamant™ Unmodified Standard Silica Layers for TLC, UV254, are available on glass plates with an optimized binder system and UV indicator.
Macherey-Nagel™ Standard SIL G Silica Layers on Glass Plates
Separate non-volatile mixtures with unmodified standard silica layers for TLC (Thin-Layer Chromatography). Standard SIL G silica layers on glass plates come in a variety of plate sizes and layer thicknesses. Select a fluorescent indicator and choose from a variety of pack sizes.
Macherey-Nagel™ Standard SIL G Silica Layers on Glass Plates
Separate non-volatile mixtures with unmodified standard silica layers for TLC (Thin-Layer Chromatography). Standard SIL G silica layers on glass plates come in a variety of plate sizes and layer thicknesses. Select a fluorescent indicator and choose from a variety of pack sizes.
Macherey-Nagel™ Standard SIL G Silica Layers on Alugram™ Aluminum Sheets UV254
Separate non-volatile mixtures with unmodified standard silica layers for TLC (Thin-Layer Chromatography). Standard SIL G Silica Layers on Alugram™ Aluminum Sheets UV254 come in a variety of sizes.
Macherey-Nagel™ Xtra SIL G Silica Layers on Alugram™ Aluminum Sheets UV254
Separate non-volatile mixtures with unmodified standard silica layers for TLC (Thin-Layer Chromatography). Xtra SIL G Silica Layers on Alugram™ Aluminum Sheets UV254 come in a variety of sizes.
Macherey-Nagel™ Standard SIL G Silica Layers on Alugram™ Aluminum Sheets
Separate non-volatile mixtures with unmodified standard silica layers for TLC (Thin-Layer Chromatography). Standard SIL G Silica Layers on Alugram™ Aluminum Sheets come in a variety of sizes.
Macherey-Nagel™ ALUGRAM™ Xtra SIL G Aluminum Sheets
Stable in almost all organic solvents and in purely aqueous eluents. Macherey-Nagel™ ALUGRAM™ Xtra SIL G Aluminum Sheets are unmodified standard silica layers on aluminum for use in TLC. Feature outstanding wettability and improved cutting properties.
Macherey-Nagel™ Polygram SIL G Polyester Sheets
Macherey-Nagel Polygram SIL G Polyester Sheets, Dimensions: 40 x 20 cm, Pore Size: 60 A, Pore Volume: 0.75 mL/g, Quantity: 25 Pack, Thickness: 0.2 mm
J.T. Baker Baker-flex™, Silica Gel IB2, J.T. Baker™
Flexible TLC Sheet
Macherey-Nagel™ Standard SIL G Silica Layers on Polygram™ polyester sheets
Separate non-volatile mixtures with unmodified standard silica layers for TLC (Thin-Layer Chromatography). Standard SIL G silica layers on Polygram™ polyester sheets come in a variety of sizes. Select fluorescent indicator and choose from a variety of pack sizes.
J.T. Baker Baker-flex™, Silica Gel IB2-F, J.T. Baker™
Flexible TLC Sheet
Macherey-Nagel™ Polygram CEL 300 UV254 Polyester Sheets
TLC polyester sheets with native fibrous cellulose. Fiber length (95 %) 2–20 μm, average degree of polymerization 400–500, specific surface acc. to Blaine 15000 cm2/g; ≤ 20 ppm Fe, 6 ppm Cu, 7 ppm P; dichloromethane extract ≤ 0.25 %; residue on ignition at 850 °C ≤ 1500 ppm.