Robust Biomimetic Mechanochromic Photonic Ionogel for Pressure Sensing

Dynamically responsive materials with chromotropic properties have received increasing attention in flexible pressure sensing due to their intuitive nature in the information transfer process. Here, inspired by the biological dynamic regulation of structural color in nature, a robust biomimetic mechanochromic photonic ionogel is ingeniously constructed. The photonic ionogel undergoes continuous and regular structural color changes under compression and outputs stable optical signals, possessing excellent linear pressure responsiveness and stability. The photonic ionogel exhibits sensitive changes in structural color and reflection wavelength via adjusting the lattice spacing of the 3D photonic crystal (mechanochromic sensitivity: 2.21 nm per %, Δλ > 150 nm). Furthermore, the good compatibility between ionogel and PC microspheres endows photonic ionogel with good linear pressure responsiveness (R2 ≈ 0.984). Meanwhile, ionic liquid (IL) and the covalent cross-linking network of robust polyurethane elastomer provide photonic ionogel with a wide temperature tolerance range (Tg ≈ −49.5 °C, initial decomposition temperature of 301 °C) and mechanical durability (5000 cycles of compression). This work demonstrates promising applications not only in flexible pressure sensing but also in advanced visual interaction devices.