Coated Microplates

Corning™ BioCoat™ Poly-D-Lysine Multiwell Plates Available on GSA/VA Contract for Federal Government customers only.

Designed to closely mimic in vivo environments and enhance expression of cell-specific morphology. Corning™ BioCoat™ Poly-D-Lysine (PDL) Multiwell Plates are ideal for applications involving adhesion, growth and differentiation of neuronal and transfected cell lines.

Corning™ BioCoat™ Collagen I Multiwell Plates Available on GSA/VA Contract for Federal Government customers only.

Treated with BioCoat™ for enhanced cell attachment and growth of a variety of primary cells and ransformed cell lines in serum-free or reduced serum cultures. Corning™ BioCoat™ Collagen I Multiwell Plates closely mimmics in vivo environments for cell culture applications. Ideal for applications involving adhesion, growth and differentiation of neuronal and transfected cell lines.

Thermo Scientific™ Plates and Modules with Affinity Binding Surfaces Available on GSA/VA Contract for Federal Government customers only.

Help reduce variability in molecular orientation with Thermo Scientific™ Plates and Modules with Affinity Binding Surfaces.

Thermo Scientific™ Plates and Modules with Covalent Binding Surfaces Available on GSA/VA Contract for Federal Government customers only.

Thermo Scientific™ Plates and Modules with Covalent Binding Surfaces

Gibco™ Collagen I, Coated Plate, 96 well Available on GSA/VA Contract for Federal Government customers only. Non-distribution product as customer accommodation.

Collagen I, Coated Plate, 96 well

Corning™ PureCoat™ Amine Flat Bottom Multiwell Plates Available on GSA/VA Contract for Federal Government customers only.

Positively charged surface improves attachment. increases proliferation and improved differentiation for a broad range of cells that exhibit poor attachment properties in serum-free or serum-reduced conditions

Corning™ Primaria™ Cell Culture Multiwell™ Plates Available on GSA/VA Contract for Federal Government customers only.

Features a surface treatment that is a permanent, stable modification of the polystyrene surface incorporating a mixture of anionic and cationic functional groups. Corning™ Primaria™ Cell Culture Multiwell™ Plates feature a flat bottom with low evaporation lid.

Corning™ BioCoat™ Collagen IV Multiwell Plates

Tissue culture vessels have a uniform application of mouse collagen type IV

Gibco™ Collagen I, Coated Plate, 6 well Available on GSA/VA Contract for Federal Government customers only. Non-distribution product as customer accommodation.

Collagen I, Coated Plate, 6 well

Gibco™ Collagen I, Coated Plate, 24 well Available on GSA/VA Contract for Federal Government customers only. Non-distribution product as customer accommodation.

Collagen I, Coated Plate, 24 well

Corning™ BioCoat™ Fibronectin Multiwell Plate

Tested for their ability to promote attachment and spreading of BHK-21 hamster kidney cells

Corning™ BioCoat™ Poly-L-Lysine Multiwell Plate Available on GSA/VA Contract for Federal Government customers only.

Provide excellent substrate for cell attachment and differentiation of primary neurons, glial, neuroblastoma and glioma cells

Corning™ 96 Well Clear Bottom Black Polystyrene Multicoated Microplates, with Lid

Six different surface treatments on a single plate (Collagen I, Fibronectin, Gelatin, Laminin, Poly-D-Lysine, TC-Treated)

Corning™ Osteo Assay Surface Microplates Available on GSA/VA Contract for Federal Government customers only.

Capable of supporting the functional properties of osteogenic cells. Corning™ Osteo Assay Surface delivers lot-to-lot consistency, translating to reliable and reproducible results in bone cell assays. The surface also offers a consistent and defined alternative to preparing dentine or bone slices, reducing the variability in assay systems and resulting in more predictable assay readouts.

Corning™ Carbo-BIND Microplates Available on GSA/VA Contract for Federal Government customers only.

Surface has hydrazide groups covalently coupled to carbohydrate groups

R&D Systems™ Human Fibronectin Coated 96-well Microplates

Provides solid support for cell attachment of adherent cell lines using serum-derived and filtered human fibronectin

Corning™ BioCoat™ Laminin Multiwell Plate

Tested for their ability to initiate differentiation (neurite outgrowth) of NG-108 rat glioma/mouse and human neuroblastoma cells

Corning™ BioCoat™ Poly-D-Lysine/Laminin Multiwell Plate

Designed to closely mimic in vivo environments and enhance expression of cell-specific morphology

Corning™ BioCoat™ Gelatin Multiwell Plate

Pre-coating with gelatin (obtained from porcine gelatin) eliminates time-consuming preparation

Corning™ BioCoat™ Matrigel™ Matrix Multiwell Plates

Soluble basement membrane extracted from Engelbreth-Holm-Swarm mouse tumor forms a gel when reconstituted at room temperature

Corning™ PureCoat™ Carboxyl Multiwell Plates

Negatively charged surface improves attachment. increases proliferation and improved differentiation for a broad range of cells that exhibit poor attachment properties in serum-free or serum-reduced conditions

Corning™ BioCoat™ Poly-L-Ornithine/Laminin Multiwell Plate

Substrate combination enhances adhesion of neurons to glass and plastic surfaces

Corning™ PureCoat™ Collagen I Peptide TC-Treated Microplates

Coated with biologically active synthetic animal-free peptides that are covalently linked to a proprietary surface

Corning™ BioCoat™ Laminin/Fibronectin Multiwell Plate

An in vitro environment for neural cell attachment and extensive process formation

R&D Systems™ Human Vitronectin Coated 96-well Microplates

Provides solid support for cell attachment of adherent cell lines using serum-derived and filtered human vitronectin

Corning™ PureCoat™ Fibronectin Peptide TC-Treated Microplates

Coated with biologically active synthetic animal-free peptides that are covalently linked to a proprietary surface

  spinner