Anisotropic strain sensors to realize skin‐comparable performances

Abstract: Conductive hydrogels (CHs) are promising candidates for wearable devices. However, it remains challenging for traditional CHs to realize a combination of self‐adhesive and skin‐comparable performances. Herein, a stretch‐induced orientation strategy was demonstrated to achieve this goal. The hydrogel was fabricated from poly(vinyl alcohol), aluminum sulfate, tannin acid, and deionized water, which exhibited skin‐comparable elastic modulus (26.3 kPa), stretchability (180%), and water content (87.6%). Meanwhile, … Show more

“…35 Therefore, it remains long pursued yet largely unmet for synthetic hydrogels to simultaneously realize cartilage-comparable performances. 36,37 However, these seemingly contradictory properties have been successfully achieved by natural cartilages. 38 Natural cartilage is a highly specialized and structured connective tissue.…”

“…Although the FC was near 0.02, the compressive strength was around 1.0 MPa 35 . Therefore, it remains long pursued yet largely unmet for synthetic hydrogels to simultaneously realize cartilage‐comparable performances 36,37 …”

An ultra‐tough, creep‐resistant, wear‐resistant hydrogel for cartilage replacement

“…35 Therefore, it remains long pursued yet largely unmet for synthetic hydrogels to simultaneously realize cartilage-comparable performances. 36,37 However, these seemingly contradictory properties have been successfully achieved by natural cartilages. 38 Natural cartilage is a highly specialized and structured connective tissue.…”

“…Although the FC was near 0.02, the compressive strength was around 1.0 MPa 35 . Therefore, it remains long pursued yet largely unmet for synthetic hydrogels to simultaneously realize cartilage‐comparable performances 36,37 …”

An ultra‐tough, creep‐resistant, wear‐resistant hydrogel for cartilage replacement