Microwell Plates

Pad Measures: 2,5x2,5mm. The ONCYTE® NOVA™ nitrocellulose-coated substrates are recommended for applications that require the greatest fluorescent sensitivity but can accept reduced binding capacity.

Pad Diameter: 6mm. The ONCYTE® NOVA™ nitrocellulose-coated substrates are recommended for applications that require the greatest fluorescent sensitivity but can accept reduced binding capacity.

Pad Measures: 6x6mm. The ONCYTE® NOVA™ nitrocellulose-coated substrates are recommended for applications that require the greatest fluorescent sensitivity but can accept reduced binding capacity.

Pad Diameter: 6mm. The ONCYTE® NOVA™ nitrocellulose-coated substrates are recommended for applications that require the greatest fluorescent sensitivity but can accept reduced binding capacity.

Pad Measures: 2,5x2,5mm. The ONCYTE® AVID™ nitrocellulose-coated substrates are for applications that require the highest possible protein binding affinity and capacity.

Pad Diameter: 6mm. The ONCYTE® AVID™ nitrocellulose-coated substrates are for applications that require the highest possible protein binding affinity and capacity.

Pad Measures: 6x6mm. The ONCYTE® AVID™ nitrocellulose-coated substrates are for applications that require the highest possible protein binding affinity and capacity.

Pad Diameter: 6mm. The ONCYTE® AVID™ nitrocellulose-coated substrates are for applications that require the highest possible protein binding affinity and capacity.

Patented FlexPlate™ technology for high throughput robotic processing of microarrays. Removable well format. 9mm Center to Center Well Spacing. Adhesive One Slide.

Patented FlexPlate™ technology for high throughput robotic processing of microarrays. Removable well format. 9mm Center to Center Well Spacing. Adhesive One Slide.

Adhesive SBS Microtiter Plate. Patented ProPlate™ technology for high throughput robotic processing of microarrays.

Adhesive SBS Microtiter Plate. Patented ProPlate™ technology for high throughput robotic processing of microarrays.

Adhesive SBS Microtiter Plate. Patented ProPlate™ technology for high throughput robotic processing of microarrays.

These nylon meshed devices provide more uniform cell suspensions, and are a perfect tool for separating cells from either clumps or primary tissues. There is no longer a need to fabricate filters from gauze, cotton, paper or fabric.

These nylon meshed devices provide more uniform cell suspensions, and are a perfect tool for separating cells from either clumps or primary tissues. There is no longer a need to fabricate filters from gauze, cotton, paper or fabric.

These nylon meshed devices provide more uniform cell suspensions, and are a perfect tool for separating cells from either clumps or primary tissues. There is no longer a need to fabricate filters from gauze, cotton, paper or fabric.

These nylon meshed devices provide more uniform cell suspensions, and are a perfect tool for separating cells from either clumps or primary tissues. There is no longer a need to fabricate filters from gauze, cotton, paper or fabric.

These nylon meshed devices provide more uniform cell suspensions, and are a perfect tool for separating cells from either clumps or primary tissues. There is no longer a need to fabricate filters from gauze, cotton, paper or fabric.

These nylon meshed devices provide more uniform cell suspensions, and are a perfect tool for separating cells from either clumps or primary tissues. There is no longer a need to fabricate filters from gauze, cotton, paper or fabric.

These nylon meshed devices provide more uniform cell suspensions, and are a perfect tool for separating cells from either clumps or primary tissues. There is no longer a need to fabricate filters from gauze, cotton, paper or fabric.

These nylon meshed devices provide more uniform cell suspensions, and are a perfect tool for separating cells from either clumps or primary tissues. There is no longer a need to fabricate filters from gauze, cotton, paper or fabric.