
Blood glucose test strips are precision medical diagnostic products designed to measure blood glucose levels. These strips consist of multiple layered structures, where conductive inks play a critical role. Conductive inks are essential for establishing stable electrical pathways, ensuring accurate transmission of test results to the device, and delivering reliable diagnostic data.
Conductive inks are available in two main types: carbon inks and silver inks. Carbon inks are known for their high conductivity and cost efficiency, making them ideal for large-scale production. Silver inks, on the other hand, are characterized by low resistance and superior conductivity, catering to the needs of high-precision blood glucose test strip designs. With the continuous advancements in medical devices, the performance requirements for conductive inks have also increased, demanding exceptional conductivity, durability, flexibility, and adhesion.
Carbon Inks │ Medical-grade conductive carbon ink with a surface resistance of 15Ω/□, designed specifically for blood glucose test strip electrodes. This high-conductivity carbon ink offers exceptional electrical performance, excellent flexibility, and strong adhesion. It is ideal for high-precision blood glucose test strip manufacturing, ensuring stable and reliable diagnostic results. Combining high performance with cost efficiency, it is the perfect choice for large-scale production and medical diagnostic applications.
Silver Inks │Medical-grade conductive silver ink with a surface resistance of 35mΩ/□. This low-resistance silver ink offers outstanding electrical performance, excellent flexibility, and strong adhesion. It is specifically developed for high-precision electrode systems in blood glucose test strips, delivering low impedance and superior conductivity. This makes it perfect for applications requiring extremely low resistance and high reliability.