E. Pierson scite author profile

Advanced materials with large and dynamic variation in thermal properties, sought for urgent defense and space applications, have heretofore been elusive. Conducting polymers (CPs) have shown some intrinsic variation of mid‐ to far‐infrared (IR) signature in this respect, but the practical utilization of this has remained elusive. We report herein the first significant IR electrochromism in any material, to our knowledge, in the 0.4 through 45 μm region. This is seen in practical CP devices in the form of thin (<0.5 mm), flexible, entirely solid‐state, variable area (1 cm2 to 1 m2) flat panels. Typical properties include: very high reflectance variation; switching times <2 s; cyclabilities of 105 cycles; emittance variation from 0.32 to 0.79; solar absorptance variation from 0.39 to 0.79; operating temperatures of –35 to +85 °C; durability against γ‐radiation to 7.6 Mrad, vacuum to 10–6 torr, and simulated solar wind (e.g., 6.5 × 1016 e/cm2 @ 10 keV).

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Far infrared electrochromism in unique conducting polymer systems

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E. Pierson

Large, Switchable Electrochromism in the Visible Through Far-Infrared in Conducting Polymer Devices

Far infrared electrochromism in unique conducting polymer systems

The solar probe shield/antenna materials characterization

Design and demonstration of superconducting power link

Robotic skeleton arc additive manufacturing of aluminium alloy

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