Nunc MicroWell, 96 well plate, polypropylene, natural, V-bottom, 500uL/well, non sterile, 120/cs

SKU:
P7116-1CS
  • $480.00
  • Description

    P7116 Sigma-Aldrich

    Nunc® MicroWell 96 well polypropylene plates

    96 well plate, polypropylene, natural, V-bottom, 500uL/well, non sterile, 120/cs

    Synonym: 96 multiwell plate, 96 well microplate, 96 well microtiter plate, 96 well plate

    Description

    General description

    Nunc® MicroWell 96 Well Polypropylene Plates

    • Compatible with robotics and automated systems
    • Polypropylene resin is resistant to most chemicals, solvents and alcohols
    • Minimal binding of molecules with hydrophilic moities
    • Non-toxic
    • Products come without lids

    • 0.5 ml volume in standard MicroWell format
    • Shared wall technology increases well volume and wider cells improve mixing
    • Low binding polypropylene for homogeneous assays and storage
    • Ideal as collection plate for Nunc Filter Plates
    • White plates for fluorescence and luminescence applications
    • Black plates for fluorescence applications
    • Yellow, red, natural and blue plates for storage applications
    • Resistant to most solvents used in combinatorial chemistry
    • Working volume range: 20 - 450 μl/well

    Application

    Suitable for: Compound storage, Liquid phase assays, Library storage, Sample transport and storage, Screening, Sample collection, Combinatorial chemistry

    Properties

    Related Categories 96 Well Plates, Cell Culture, Drug Discovery, Labware, Manufacturer Browser,
    More...
    material   conical bottom natural wells
      natural polypropylene
      polypropylene
    sterility   non-sterile
    feature   lid: no
      high flange design
    packaging   case of 120 ea (internal packs of 10)
    mfr. no.   Nunc 249944
      Nunc, 249944
    plate L × W   128 mm × 86 mm
    size   96 wells
    well maximum volume   400 μm
    working volume   400 μL
    matrix active group   non-treated surface treatment
    binding type   non-treated surface