384孔磁力板

384-well Magnet Plate384孔磁力板

Post Magnet Plate后磁力板 SKU: A001222

384-well Magnet Plate quantity

384孔磁力板数量

Designed for use with 384-well PCR plates.  Contains 96 strong post magnets and integrated Spring Cushion Technology for high throughput magnetic bead separations.

设计用于384孔PCR板。包含96强后磁铁和集成的弹簧缓冲技术，用于高通量磁珠分离。

The perfect magnet for all your high- to ultra-high throughput genomic applications.

Spring Cushion Technology for critical liquid handler Z’ position compensation and maximized aspirated sample volume.

Automated magnetic bead separation like no other.

完美磁铁为您所有的高到超高通量基因组应用。

弹簧缓冲技术用于关键液体处理器Z的位置补偿和最大的吸进样品体积。

自动磁珠分离是独一无二的。

Key Features of Alpaqua’s 384 Post Magnet Plate

Optimized for robotic access

Strong NdFeB post magnets for efficient bead capture in high density PCR plates

15 µl elution volume

Compatible with most magnetic bead chemistries and protocols

Integrated Spring Cushion Technology for maximized aspiration without tip occlusions

Alpaqua 384柱磁铁板的主要特点

针对机器人访问进行了优化

强钕铁硼后磁铁有效的珠捕获在高密度PCR板

15µl洗脱量

兼容大多数磁珠化学和协议

集成弹簧缓冲技术，最大限度地吸进，没有尖端闭塞

Focused on Automation

The Alpaqua 384 Post Magnet Plate is designed with automated high throughput usage in mind.  SBS footprint for broad compatibility, gripper grooves for easy robot access, and integrated Spring Cushion Technology. 

专注于自动化

该Alpaqua 384后磁铁板的设计与自动化的高通量使用的头脑。SBS足迹具有广泛的兼容性，夹具凹槽便于机器人访问，以及集成的弹簧缓冲技术。

For best results we recommend using rigid PCR microplates such as Bio-Rad Hard-Shell®, Eppendorf twin.tec®, 4titude FrameStar® microplates.

为了获得最佳结果，我们建议使用刚性PCR微孔板，如Bio-Rad Hard-Shell®，Eppendorf twin。tec®，4titude FrameStar®微孔板

Why do I need Spring Cushion Technology?

Alpaqua microplates with integrated Spring Cushion Technology give way when tips come in contact with a well bottom, thus compensating for physical tolerances between labware and pipettors that can compromise precision aspiration.

为什么我需要弹簧缓冲技术?

集成了弹簧缓冲技术的Alpaqua微孔板在尖端接触井底时让位，从而补偿了实验室仪器和移液器之间的物理公差，从而影响了精确的抽吸。

Protects instruments & consumables

Improves pipetting consistency

Maximizes usage of reagents & samples

Minimizes tip vacuum & head contamination

Accelerates automated method development

保护仪器和耗材

提高移液一致性

最大限度地利用试剂和样品

最大限度地减少尖端真空和封头污染

加速自动化方法开发