Nickel-coated conductive microparticles have characteristics such as uniform particle size, high conductivity, moderate elasticity, and strong bonding between the nickel coating and the resin core.
Nickel-coated conductive microparticles are designed for connections between fine electrodes and are used, for example, for vertical conduction between glass plates in liquid crystal display panels. They are also used to create anisotropic conductive films (ACF) dispersed in adhesives or as anisotropic conductive adhesives (ACP) in the assembly of liquid crystal displays. Product characteristics: ★ Core made of polymer microbeads with a nickel layer as the shell. ★ A wide range of particle size options: a rich lineup of specifications in increments of 0.25 µm within the range of 3.0 to 11.0 µm. ★ Uniform particle size with a coefficient of variation (CV) of less than 3.5%. ★ Excellent dispersibility with no overlap or aggregation. ★ Possesses appropriate hardness, stable conductivity, and reliability. ★ Low impedance and high stability even in high-temperature and high-humidity environments.
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basic information
A wide range of specifications in increments of 0.25 µm within the range of 3.0 to 11.0 µm is available. For more details, please download the catalog or contact us.
Price information
We have proactively developed technology for mass production, leading to cost reduction and shorter delivery times. For more details, please contact us.
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Applications/Examples of results
Nickel-coated conductive microparticles are designed for connections between fine electrodes and are used, for example, for vertical conduction between glass plates of liquid crystal display panels. They are also dispersed in adhesives to create anisotropic conductive films (ACF) or used as anisotropic conductive adhesives (ACP) in the assembly of liquid crystal displays.
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Company information
Mishima International Trade Co., Ltd. has started selling Chinese-made microparticle products in Japan. Microparticle products of arbitrary sizes from 5nm to 1000μm: CV < 3.5, organic, inorganic or material, functional group bonding, and diverse morphology.