Functionalized 96-well plates for microarrays

In order to take advantage of the existing liquid handling and automation solutions for 96-well SBS formats, PolyAn is offering a range of functionalized multiwell products which are equipped with the same reactive surfaces as our glass and plastic slides.

Products

Id
Title
Id Title
00 680 251 3D-Epoxy 96 well plate, white, 12 x 8-strip, flat bottom
00 680 251 3D-Epoxy 96 well plate, white, 12 x 8-strip, flat bottom
00 680 451 3D-NHS 96 well plate, white, 12 x 8-strip, flat bottom
00 681 251 Covalently coated Streptavidin 96 well plate, white, 12 x 8-strip, flat bottom
00 682 251 Covalently coated Neutravidin 96 well plate, white, 12 x 8-strip, flat bottom
00 690 251 3D-Epoxy 96 well transparent, 12 x 8-strip, flat bottom
00 690 451 3D-NHS 96 well transparent, 12 x 8-strip, flat bottom
00 691 251 3D-Epoxy 96-well µClear® microplate, PS, black
00 691 451 3D-NHS 96-well µClear® microplate, PS, black
00 692 251 Covalently coated Streptavidin 96 well transparent, 12 x 8-strip, flat bottom
00 692 251 Covalently coated Streptavidin 96 well transparent, 12 x 8-strip, flat bottom
00 693 251 Covalently coated Neutravidin 96 well transparent, 12 x 8-strip, flat bottom
00 693 251 Covalently coated Neutravidin 96 well transparent, 12 x 8-strip, flat bottom
00 791 251 Covalently coated Streptavidin 96-well µClear® microplate, PS, black
00 792 251 Covalently coated Neutravidin 96-well µClear® microplate, PS, black
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Standard polystyrene 96-well plates in different designs which are equipped with PolyAn’s 3D-Epoxy and 3D-NHS reactive matrices for covalent coupling of biomolecules.

Key features:

  • Compatible with all liquid handling systems for ELISA
  • Covalent binding of nucleophiles to the plate surface without complex coupling chemistry
  • Integrated antifouling matrix reduces unspecific binding
  • No cross-contamination between wells possible
  • Most cost-efficient solution

Multipart plates

PolyAn’s multipart plates are comprised of a functionalized glass plate (75 x 110 mm, 1mm thickness) which is combined with the ProPlate superstructure after the printing process.

ProPlate® MTP features a biocompatible, pressure sensitive, adhesive bonding system applied to a bottomless microtiter plate to form a leak-proof seal between wells to isolate microarrays printed on glass or plastic during processing. Designs are available in black polystyrene for the 96 well (round) and 384 well (square) plates, and in black polycarbonate for the 96 well (square) plate, which maximizes the array printing area. Application of the substrate is as simple as peeling off a liner to expose the adhesive and pressing the content to the surface. Alignment of arrays within the wells may be facilitated by means of a fixture (sold separately). This product is often customized for content providers seeking a go-to-market solution for their arrays printed on difficult to bond substrates. Lids and adhesive plate seals are also available both as a packaging solution to protect content and as a means to prevent evaporation during reagent incubation steps. ProPlate MTP products are compatible with several available microarray imagers and most robotic liquid handling platforms.

Products

Id
Title
Id Title
00 700 001 3D-Amino glass bottom, 96-well multipart plates, round wells
00 700 021 2D-Amino glass bottom, 96-well multipart plates, round wells
00 700 221 2D-Epoxy glass bottom, 96-well multipart plates, round wells
00 700 251 3D-Epoxy glass bottom, 96-well multipart plates, round wells
00 700 301 3D-Aldehyde glass bottom, 96-well multipart plates, round wells
00 700 451 3D-NHS glass bottom, 96-well multipart plates, round wells
00 705 001 3D-Amino glass bottom, 96-well multipart plates, square wells
00 705 221 2D-Epoxy glass bottom, 96-well multipart plates, square wells
00 705 251 3D-Epoxy glass bottom, 96-well multipart plates, square wells
00 705 301 3D-Aldehyde glass bottom, 96-well multipart plates, square wells
00 705 451 3D-NHS glass bottom, 96-well multipart plates, square wells
00 710 001 3D-Amino glass bottom, 384-well multipart plates, square wells
00 710 221 2D-Epoxy glass bottom, 384-well multipart plates, square wells
00 710 251 3D-Epoxy glass bottom, 384-well multipart plates, square wells
00 710 301 3D-Aldehyde glass bottom, 384-well multipart plates, square wells
00 710 451 3D-NHS glass bottom, 384-well multipart plates, square wells
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Key features:

  • Fast printing on planar surface
  • No electrostatic effects
  • All of PolyAn’s reactive matrices available for coupling
  • Functionalized bottom plate can be comprised of glass, PMMA, COP and other plastics

Functionalized glass sheets

Functionalized glass sheets without superstructure in 1 mm thickness. The size of the glass sheets is optimized for use with standard 96-well and 384-well superstructures. Other surfaces are available upon request.

Products

Id
Title
Id Title
104 00 027 2D-Amino glass sheets, 110 x 74 x 1 mm, 5 sheet/box
104 00 208 3D-Epoxy glass sheets, 110 x 74 x 1 mm, 5 sheet/box
104 00 228 2D-Epoxy glass sheets, 110 x 74 x 1 mm, 5 sheet/box
104 00 408 3D-NHS glass sheets, 110 x 74 x 1 mm, 5 sheet/box
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Functionalized HTA 96 well plates

The HTA96-well plates of Greiner Bio-One have been specifically designed for microarrays. They are comprised of a low autofluorescence injection moulded plastic which PolyAn equips with our 3D-reactive surfaces. Plates with the following matrices are available:

Please do not hesitate to contact us, if you would like to learn more about this novel design and/or if you would like to test some samples.

Key features:

  • Fast printing on planar surface
  • No electrostatic effects
  • Standard SBS format
  • All of PolyAn’s 3D-reactive matrices available for coupling
  • Mechanically robust, low autofluorescence injection moulded plastic

Customized surfaces

Please do not hesitate to contact us, if you require a special surface for binding of your biomolecules that is not listed in the products table. We can also functionalise other plate formats and substrates with our surfaces. Additionally, we have access to a wide range of different surface modifications for binding of small molecules, saccharides etc.