XIDAS has realized products that were traditionally impossible to manufacture on a small scale. They produce CMA using a manufacturing method called Amarga technology, developed by a group of scientists specializing in ultra-small manufacturing.
This product features a microarray of small containers arranged in an orderly manner. It is used for conducting experiments in laboratories and similar settings at a micro level, processing a large number of interactions simultaneously. It is utilized in experiments at the microbial and cellular level, along with nucleic acids, peptides, and antibodies. When using DNA fragments, it is referred to as a DNA microarray and can be utilized as such. The cell microarray plate is uniquely designed with reservoirs arranged in an array to hold and proliferate both non-adherent cells (in suspension) and adherent cells (attached to the growth surface). These containers are called reservoirs, and they are implemented in a high density with a large number. XIDAS manufactures various cell microarray plates with new features to accommodate a variety of applications. The specifications listed below represent a general configuration, but sizes, shapes, and characteristics can be customized according to customer requests.
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basic information
Manufacturable Specifications: Structural Examples Precision rectangular array vertical wells Positioning and handling with a robust outer frame Abundant materials Coating available Opaque materials Metal Parylene surface Hydrophobic/hydrophilic surfaces Custom bottom surfaces Transparent bottom Membrane bottom Microcircuits on the bottom surface For options such as RFID/QR code integration, please contact IMC Co., Ltd., the exclusive distributor of XIDAS in Japan. Sample Model Number: CMA-G1-156-252-P0-x 2500 wells (each 1mm diameter, 1500nL volume), polyurethane material, glass bottom, unmodified Accessories - Microarray carrier (safely holds and protects microarrays) - Seal layer (film or reusable lid) - QR Codscan software (easily integrates with third-party data applications) - Computer-controlled reagent dispensers can also be manufactured.
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Applications/Examples of results
Effective for research, experiments, and tests such as blood tests, PCR tests, cell cultures, and large-scale cell analysis.
Company information
In the world of microtechnology, the evolution of IoT has created demand, and the enduring semiconductor MEMS industry has begun to face design limitations. Professor Mark Bachman from the University of California, Irvine (UCI) has invented more innovative solutions through 20 years of developing miniaturized mechanical technology. With a vision to spread this technology worldwide, Professor Bachman teamed up with industry entrepreneur Paul Dillon and former Cadence and AWR president James Spott to establish Integra Devices (now Xidas) on the UCI campus.
