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Reversibly compressible and durable graphene aerogels are demonstrated by J. Kong, H. S. Park, and colleagues on page 1053 for energy storage where volume and mass must be limited. Taking advantage of the polymer assisted self assembly and cross linking, high porosity and low density yet mechanical durability and elasticity are achieved in cross linked reduced graphene oxide aerogels. They are highly...
High porosity combined with mechanical durability in conductive materials is in high demand for special applications in energy storage under limiting conditions, and it is fundamentally important for establishing a relationship between the structure/chemistry of these materials and their properties. Herein, polymer‐assisted self‐assembly and cross‐linking are combined for reduced graphene oxide (rGO)‐based...
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