Microfluidic PCR Chips

Microfluidic Pathogen Detection Chips

Microfluidic Drug Screening Chips

Sensor Integration Chips

Micro Reaction Chips

Analysis and detection microfluidic chips are used for the highly sensitive, high-throughput, and rapid testing of nucleic acids, proteins, and small molecules. These chips integrate sample pretreatment, reactions, and signal detection within a network of microchannels, enabling precise "sample-in, result-out" analysis.

As a professional supplier of microfluidic and organ-on-a-chip solutions, Matexcel provides clients with high-quality microfluidic chip solutions for analytical testing. Leveraging precision microfabrication technology and proven structural designs, our products offer advantages such as high detection sensitivity, efficient reactions, and reliable results, meeting diverse needs including nucleic acid amplification, pathogen identification, drug activity assessment, real-time sensing and monitoring, and micro-scale biochemical reactions.

Examples of Typical Testing Parameters

Chip Types Detectable Samples/Targets Detection Methods
Microfluidic PCR Chip DNA, RNA, viral nucleic acids, mutant genes. Quantitative fluorescence, End-point PCR, Digital PCR.
Pathogen Detection Chip Antigens or nucleic acids of bacteria, viruses, fungi, and parasites. Immunofluorescence and LAMP.
Drug Screening Chip Cell viability, enzyme activity, and protein expression changes. Colorimetry, Fluorescence, Luminescence.
Sensor-integrated Chip Glucose, hydrogen peroxide, ions, pH, and electroactive small molecules. Electrochemistry (Amperometry/Impedance), Optics.
Microreaction Chip Enzyme substrates, metabolites, and synthetic intermediates of small molecules. UV absorption, Mass spectrometry coupling, Fluorescence.

Trends in the Development of Microfluidic Chips for Analytical Testing

Microfluidic chips for analytical testing are rapidly evolving toward high integration, intelligence, portability, and multi-omics integration.

  • These chips are evolving from single-function devices to fully integrated systems; by combining micro-pumps, micro-valves, sample pretreatment units, and signal readout modules, they achieve integrated and automated analysis.
  • The application of new materials (such as flexible electronic materials and biodegradable bioplastics) and advanced manufacturing technologies (3D printing and nanoimprinting) has enhanced the biocompatibility and mass production capabilities of these chips, driving the widespread adoption of low-cost point-of-care testing (POCT) devices.
  • Microfluidic chips are being integrated with artificial intelligence algorithms to enable remote diagnosis and intelligent interpretation through image recognition and real-time data analysis.

Matexcel can recommend the most suitable chip model based on your specific detection targets, throughput requirements, and application scenarios, and can customize the integration of sample pretreatment units (such as filtration, enrichment, and dilution). If you need further technical solutions or application examples, please feel free to contact us at any time!

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