Plates

Compare Tool

Select up to 3 products

1 - 32 of 33
Sort
View
Show

Finneran/Porvair Sciences

  • Features Nano silica 60, specific surface (BET) ~ 500 m2/g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 2–10 µm Indicator: manganese activated zinc silicate with green fluorescence for short-wave UV (254 nm) Hard, water-resistant and wettable…

  • Features Base material: Nano-silica 60, specific surface (BET) ~ 500 m2/g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 2–10 μm, pH stability 2–10 Partial (50%) or complete (100%) octadecyl modification, carbon content 7.5 and 14%, respectively…

  • Aluminium oxide, specific surface (BET) ~ 200 m 2 /g, mean pore size 60 Å; inert organic binder indicator manganese-activated zinc silicate available as glass plates, POLYGRAM® polyester sheets and ALUGRAM® aluminium sheets Recommended application: terpenes, alkaloids,…

  • Silica 60, specific surface (BET) ~ 500 m 2 /g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 5–17 µm; standard grade Thickness of layer for analytical plates 0.25 mm, for preparative plates 0.5 and 1 mm For 2 mm preparative layers a slightly coarser…

  • Features Silica 60, specific surface (BET) ~ 500 m 2 /g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 5–17 µm; standard grade Outstanding wettability for precise colorization results, even with 100 % aqueous detection reagents Excellent separation…

  • Fibrous cellulose with 10 % content of acetylated cellulose available as POLYGRAM® polyester sheets Recommended application: reversed phase chromatography

  • Features Reversed phase nano silica impregnated with Cu(II) ions and a chiral selector (a proline derivative, DP 31 43 726 and EP 0 143 147) Separation based on ligand exchange, i. e. formation of ternary mixed-ligand complexes with the Cu(II) ions differences in the stability of the…

  • Features Silica 60, specific surface (BET) ~ 500 m2/g, mean pore size 60 Å specific pore volume 0.75 mL/g, particle size 5–17 µm available as glass plates with or without fluorescent indicator also available as ALUGRAM® Xtra aluminium sheets Excellent…

  • Features Base material: Nano silica 60, specific surface (BET) ~ 500 m 2 /g, mean pore size 60 Å specific pore volume 0.75 mL/g particle size 2–10 μm pH stability 2–8 Indicator: acid-resistant product with a pale blue fluorescence for short-wave UV…

  • Features IONEX-25 SA-Na: mixture of silica and a strongly acidic cation exchanger coated to polyester sheets IONEX-25 SB-AC: mixture of silica and a strongly basic anion exchanger coated to polyester sheets Both layers contain an inert organic binder. Recommended application:…

  • Features Nano silica 60, specific surface (BET) ~ 500 m 2 /g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 2–10 µm Indicator: manganese activated zinc silicate with green fluorescence for short-wave UV (254 nm) Binder: highly polymeric product,…

  • Features Fiber length (95 %) 2–20 μm, average degree of polymerization 400–500 specific surface acc. to Blaine 15000 cm 2 /g ≤ 20 ppm Fe, 6 ppm Cu, 7 ppm P; dichloromethane extract ≤ 0.25% residue on ignition at 850°C ≤ 1500 ppm available as glass…

  • High purity silica 60, specific surface (BET) ~ 500 m2/g, mean pore size 60 Å specific pore volume 0.75 mL/g, particle size 5–17 µm Different binder system compared to SIL G results in different separation characteristics Special feature of the POLYGRAM® SIL N-HR:…

  • Silica 60, specific surface (BET) ~ 500 m 2 /g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 5–17 µm; standard grade Thickness of layer for analytical plates 0.25 mm, for preparative plates 0.5 and 1 mm For 2 mm preparative layers a slightly coarser…

  • Prepared by hydrolysis of high purity cellulose with HCl mean degree of polymerization 40–200 Available as glass plates and POLYGRAM® polyester sheets Recommended application: carboxylic acids, lower alcohols, urea and purine derivatives

  • Polyamide 6 = Nylon 6 = perlon = ε-Polycaprolactame separation mechanism based on hydrogen bonds to amide groups of the polymer matrix as well as on ionic, dipol and electron donor/acceptor interactions available as POLYGRAM® polyester sheets with or without fluorescent indicator …

  • Features Base material: nano silica 60, specific surface (BET) ~ 500 m2/g, mean pore size 60 Å, specific pore volume 0.75 mL/g particle size 2–10 μm pH stability 2–8 Indicator: acid-resistant product with a pale blue fluorescence for short-wave UV (254…

  • MN ALUGRAM® Scissors

    MACHEREY-NAGEL

  • Features Base material: silica 60, specific surface (BET) ~ 500 m 2 /g mean pore size 60 Å specific pore volume 0.75 mL/g particle size 5–17 μm pH stability 2–10 Indicator: acid-resistant product with a pale blue fluorescence for short-wave UV…

  • Features Nano silica 60, specific surface (BET) ~ 500 m2/g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 2–10 µm Outstanding hardness and abrasion resistance due to an optimized binder system Increased separation efficiency due to an optimized…

  • Features Base material: silica 60, specific surface (BET) ~ 500 m2/g, mean pore size 60 Å specific pore volume 0.75 mL/g particle size 2–10 μm for preparative plates (1 mm thickness of layer) standard silica 60 particle size 5–17 µm pH stability…

  • Features Silica 60, specific surface (BET) ~ 500 m 2 /g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 5–17 µm Outstanding dyeability and abrasion resistance due to an optimized binder system Good wettability for precise colorization results, even…

  • Features Base material: nano silica 60, specific surface (BET) ~ 500 m 2 /g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 2–10 μm impregnated with caffeine, an electron acceptor for PAH analysis based on charge-transfer complexes available as glass…

  • Features Silica G impregnated with ammonium sulfate available as glass plates without fluorescent indicator Recommended for the separation of detergents, alkanesulfonates, polyglycols etc.

  • Features Silica 60, specific surface (BET) ~ 500 m2/g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 5–17 µm Outstanding hardness and abrasion resistance due to an optimized binder system Increased separation efficiency due to an optimized particle…

  • Mixed Layers for TLC

    MACHEREY-NAGEL

    Features Alox/CEL-AC-Mix-25 : mixed layer of aluminium oxide G and acetylated cellulose recommended for separation of PAHs SILCEL-Mix-25 : mixed layer of cellulose and silica, recommended for separation of preservatives and other antimicrobial compounds

  • Features High purity silica 60 with gypsum and a very small quantity of a polymeric organic binder softer than the standard silica layer, i. e. spots can be scratched and the layer absorbs faster Available as glass plates with or without fluorescent indicator Recommended for the…

  • Features Nano silica 60, specific surface (BET) ~ 500 m2/g, mean pore size 60 Å, specific pore volume 0,75 mL/g particle size 2–10 µm narrow fractionation of the silica particles allows sharper separations, shorter developing times, shorter migration distances, lower…

  • Features Nano silica 60, specific surface (BET) ~ 500 m 2 /g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 2–10 µm Outstanding dyeability and abrasion resistance due to an optimized binder system Good wettability for precise colorization results,…

  • Features Base material: nano silica 60, specific surface (BET) ~ 500 m2/g, mean pore size 60 Å specific pore volume 0.75 mL/g particle size 2–10 μm pH stability 2–8 Indicator: acid-resistant product with a pale blue fluorescence for short-wave UV…

  • Features Silica 60, specific surface (BET) ~ 500 m2/g, mean pore size 60 Å, specific pore volume 0.75 mL/g, particle size 5–17 µm Hard, water-resistant and wettable layers due to a special binder system No reversed phase tendency, more polar than SIL G Available as…

Compare Tool

Select up to 3 products

Please Log In

Don't have a web profile? Create one now.