Complete Plates



            SORT BY  1 of 1   Page     1 
Amine, Stripwell plate, 8 well, flat - 2388  
Corning Life Sciences

Request info

The Amine surface is made up of positively charged amine groups (2 x 1013 reactive sites/cm2) that can be used for covalent immobilisation via bifunctional crosslinker. To do so, the...
Read more
Carbo-BIND, Stripwell plate, 8 well, flat - 2508  
Corning Life Sciences

Request info

Carbo-BIND microplates have a hydrazide surface that covalently couples to carbohydrate groups, and are ideal for assays requiring site-directed orientation of a particular biomolecule.
Read more
DNA-BIND, Stripwell clear plate, 8 well, flat - 2506  
Corning Life Sciences

Request info

DNA-BIND surface covalently couples to amine groups, providing a convenient method to immobilise aminated ssDNA by either the 5' or 3' end for hybridisation, amplification, or other...
Read more
DNA-BIND, Stripwell white plate, 8 well, flat - 2497  
Corning Life Sciences

Request info

DNA-BIND surface covalently couples to amine groups, providing a convenient method to immobilise aminated ssDNA by either the 5' or 3' end for hybridisation, amplification, or other...
Read more
Stripwell - 1 x 8 Stripwell plate, flat bottom, clear,...  
Corning Life Sciences

Request info

The Costar® 1 x 8 strips are designed to fit only one way into the strip holder, assuring proper orientation. The flat bottom strips are designed to easily break apart and are pre-assembled...
Read more
Sulfhydryl-BIND, Stripwell plate, 8 well, flat - 2510  
Corning Life Sciences

Request info

Sulfhydryl-BIND microplates have a maleimide surface that covalently couples to sulfhydryl groups and are ideal for assays requiring site-directed orientation of a particular biomolecule,...
Read more
Universal-BIND, Stripwell plate, 8 well, flat - 2504  
Corning Life Sciences

Request info

The Universal-BIND surface offers the ability to covalently immobilise almost any molecule provided at least one abstractable hydrogen is present. All that is required is a UV crosslinker;...
Read more
VenaT4 Biochip  
Cellix Ltd

Request info

The VenaT4™ biochip model combines Cellix's proprietary microfluidic flow technology for cell recruitment under shear stress with traditional transwell chamber models. Used to...
Read more