Lithography plays a critical role in biomedical applications. It's used in the fabrication of micro and nano-scale devices, such as microfluidic chips for lab-on-a-chip systems, enabling precise diagnosis and drug delivery. Lithography also aids in creating biosensors and implantable devices. Its ability to produce intricate and miniaturized structures makes it indispensable in advancing biomedical technology.
Bio Molecular Sensors.

Biomolecular sensors are devices that detect and measure the presence of biological molecules, offering critical data for diagnosing diseases, monitoring health conditions, or studying biological systems. By leveraging precise patterning capabilities, Eulitha’s PHABLE lithography technology enables the fabrication of nanoscale structures and surfaces that enhance the detection and analysis of biomolecules. This technology plays a vital role in biosensors, DNA sequencing, and lab-on-a-chip devices for accurate and sensitive detection of biological molecules and interactions.

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X-Ray Imaging.

Eulitha’s Lithography technology plays a vital role in the advancement of X-ray imaging applications. This technology, traditionally used in the semiconductor industry, is crucial in fabricating high-resolution X-ray detectors. It allows for the precise structuring of sensor arrays and electronic readouts, enhancing image quality and diagnostic accuracy. Additionally, the PHABLE technology nano-scale lithographic techniques have been employed in developing X-ray optics before by our customers. These allow for high-resolution, non-destructive imaging of biological and material samples. As the demand for better X-ray imaging tools increases, particularly in medical and scientific research fields, the role of lithography in their development becomes even more significant.

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