Merck

Last updated January 31, 2026

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Oligoamide extended bismaleimide copolymers: MerckRecent Research Landscape

Signal loss and thermal instability in high-frequency circuits drive up manufacturing costs. Precise control of the copolymer backbone architecture mitigates parasitic capacitance and dielectric breakdown.

What technical problems is Merck addressing in Oligoamide extended bismaleimide copolymers?

Optical anisotropy instability

(9)evidences

Liquid crystal films frequently suffer from poor orientation stability and inconsistent birefringence under thermal or mechanical stress. Resolving these defects ensures uniform optical properties and durability in display applications.

Insufficient dielectric thermal stability

(2)evidences

Standard bismaleimide resins exhibit excessive energy dissipation and signal attenuation at high frequencies. Reducing dielectric loss enables high-speed data transmission in advanced microelectronics.