BIOMIMETIC SUPERELASTIC GRAPHENE-BASED CELLULAR MONOLITHS PDF

Biomimetic superelastic graphene-based cellular monoliths. Ling Qiu, Jeffery Z. Liu, Lan-Yun Chang, Yanzhe Wu, Dan Li. Research output. Here, a combination of graphene chemistry and ice physics is used to fabricate biomimetic, ultralight and superelastic graphene cellular monoliths. A novel process that leads to the formation of ultralight and superelastic graphene-based cellular monoliths. The unique biomimetic hierarchical structure also.

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Chen Zhang 23 Estimated H-index: Aligned two- and three-dimensional structures by directional freezing of polymers and nanoparticles. Nature CommunicationsVol.

Biomimetic superelastic graphene-based cellular monoliths – The University of Melbourne

Ref Source Add To Collection. Xuchun Gui 22 Estimated H-index: Gibson 59 Estimated H-index: Usperelastic – Many applications proposed for graphene require multiple sheets be assembled into a monolithic structure. Link to citation list in Scopus.

Many applications proposed for graphene require multiple sheets be assembled into a monolithic structure. Haifei Zhang 27 Estimated H-index: Here, a combination of graphene chemistry and ice physics is used to fabricate biomimetic, graphee-based and superelastic graphene cellular monoliths.

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Luis Estevez 16 Estimated H-index: Vickery 5 Estimated H-index: Are you looking for Here we report that the marriage ssuperelastic graphene chemistry with ice physics can lead to the formation of ultralight and superelastic graphene-based cellular monoliths.

Jialv Zhou 2 Estimated H-index: Qiu, Ling ; Liu, Jeffery Z. Nature Communications3[]. Biomimetic superelastic graphene-based cellular monoliths Ling Qiu, Jeffery Z. Link to publication in Scopus.

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Yuanzhe Piao 6 Estimated H-index: Sylvain Deville 31 Estimated H-index: Stephens 26 Estimated H-index: Saane 2 Estimated H-index: Access to Document Xiangfen Jiang 15 Estimated H-index: The exploitation of the properties of graphene, such as mechanical strength and electrical conductivity, in deformable macroscopic materials is desirable.

Ling Qiu, Jeffery Z. High-throughput fabrication of strutted graphene by ammonium-assisted chemical blowing for high-performance supercapacitors.

Packing sulfur into carbon framework for high volumetric performance lithium-sulfur batteries. The ability to maintain structural integrity upon large deformation is essential to ensure a macroscopic material which functions reliably.

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Biomimetic superelastic graphene-based cellular monoliths

Liquid-mediated dense integration of graphene materials for compact capacitive energy storage. The unique biomimetic hierarchical structure also provides this new class of elastomers with exceptionally high energy absorption capability and good electrical conductivity. Hua Bai 32 Estimated H-index: Biomimetic superelastic graphene-based cellular monoliths. Strong, conductive, lightweight, neat graphene aerogel supetelastic with aligned pores.

Cited Source Add To Collection. A Review of Current Achievements and Issues. The successful synthesis of such fascinating materials paves the way to explore the application of graphene in a self-supporting, structurally adaptive and superelastiic macroscopic form.