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Abstract By utilizing bicontinuous and nanoporous ordered nanonetworks, such as double gyroid (DG) and double diamond (DD), metamaterials with exceptional optical and mechanical properties can be fabricated through the templating synthesis of functional materials. However, the volume fraction range of DG in block copolymers is significantly narrow, making it unable to vary its porosity and surface‐to‐volume ratio. Here, the theoretically limited structural volume of the DG phase in coil‐coil copolymers is overcome by enlarging the conformational asymmetry through the association of mesogens, providing fast access to achieving flexible structured materials of ultra‐high porosities. The new materials design, dual‐extractable nanocomposite, is created by incorporating a photodegradable block with a solvent‐extractable mesogen (m) into an accepting block, resulting in a new hollow gyroid (HG) with the largely increased surface‐to‐volume ratio and porosity of 77 vol%. The lightweight HG exhibits a low refractive index of 1.11 and a very high specific reduced modulus, almost two times that of the typical negative gyroid (porosity≈53%) and three times that of the positive gyroid (porosity≈24%). This novel concept can significantly extend the DG phase window of block copolymers and the corresponding surface‐to‐volume ratio, being applicable for nanotemplate‐synthesized nanomaterials with a great gain of mechanical, catalytic, and optoelectronic properties.