| Surface plasmon resonance sensors for parallelized observation of molecular interactions |
| Assoc. Prof. Jiří Homola, Ph.D., DSc. |
| Year: 2007 |
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Surface plasmon resonance (SPR) biosensors represent one of the most
advanced optical sensing technologies. SPR biosensors have become a
central tool for label-free study of molecular interactions, and a
mainstay of both life science and pharmaceutical research. SPR
biosensors also hold potential for a wide range of bioanalytical tasks
in sectors such as medical diagnostics, environmental monitoring, food
safety and security [1]. Current SPR sensors lack high throughput and
therefore development of SPR biosensors allowing simultaneous
monitoring of hundreds or thousands of biomolecular interactions
presents an important direction in the SPR sensor research.
We have developed two novel types of high-throughput SPR sensors. The first approach is based on spectroscopy of surface plasmons on an array of special diffraction gratings which form the sensor chip and uses a scanning mechanism to read more than 200 sensing channels within several tens of seconds [2, 3]. The other system combines imaging of the SPR-active surface with special spatially patterned multilayers in the polarization contrast to enable observation of molecular interactions in hundreds of sensing channels with high sensitivity and resolution [4, 5]. The developed high-throughput SPR sensors have been functionalized with appropriate surface chemistries [6] and used for characterization of antibodies [3] and detection of oligonucleotides [5]. 
Multichannel SPR sensor - sensor system based on SPR imaging and polarization contrast (left) and a typical SPR image (right). |
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