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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Haifei Zhang 27 Estimated H-index: Nature Communications3[]. Here we report that the marriage of graphene chemistry with ice physics can lead to the formation of ultralight and superelastic graphene-based cellular monoliths.

Biomimetic superelastic graphene-based cellular monoliths

Link to citation list in Scopus. The successful synthesis of such fascinating materials paves the way to explore the application of graphene in a self-supporting, structurally adaptive and 3D macroscopic form. Haiyan Sun 11 Estimated H-index: Many applications proposed for graphene require multiple sheets be assembled into a monolithic structure. Ramendra Sundar Dey 10 Estimated H-index: Atomistic modeling of the stiffness, strength and charge-induced actuation of graphene nanofoams. Ref Source Add To Collection.

Biomimetic superelastic graphene-based cellular monoliths — Arizona State University

Yuanzhe Piao 6 Estimated H-index: Qiu, Ling ; Liu, Jeffery Z. The exploitation of the properties of graphene, such as mechanical strength and electrical conductivity, in deformable macroscopic materials is desirable.

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Strong, conductive, lightweight, neat graphene monkliths fibers with aligned pores. Superelasticity and reversible energy absorption of polyurethane cellular structures with sand filler. Vickery 5 Estimated H-index: Here, a combination of graphene chemistry and ice physics is used to fabricate biomimetic, ultralight and superelastic graphene cellular monoliths.

Sylvain Deville 31 Estimated H-index: Biomimetic superelastic graphene-based cellular monoliths. Saane 2 Estimated H-index: N2 – Many applications proposed for graphene require multiple graaphene-based be assembled into a monolithic structure.

Assembling of graphene oxide in an isolated dissolving droplet soft matter [IF: Abstract Many applications proposed for graphene require multiple sheets be assembled into a monolithic structure. Dan Li 64 Estimated H-index: Na Ni 13 Estimated H-index: The celullar biomimetic hierarchical structure also provides this new class of elastomers with exceptionally high energy absorption capability and good electrical conductivity.

Jiaojiao Sun 2 Estimated H-index: Xuchun Gui 22 Estimated H-index: High-throughput fabrication of strutted graphene by ammonium-assisted chemical blowing for high-performance supercapacitors.

Stephens 26 Estimated H-index: AB – Many applications proposed for graphene require multiple sheets be assembled into a monolithic structure. Zhen Xu 1 Estimated H-index: A Review of Current Achievements and Issues.

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Link to publication in Scopus. Ling Qiu, Jeffery Z. Structure and Mechanical Properties. Packing sulfur into carbon framework for high volumetric performance lithium-sulfur batteries. Aligned two- and three-dimensional structures by directional freezing of polymers and nanoparticles. Hua Bai 32 Estimated H-index: Download PDF Cite this paper. Jialv Zhou 2 Estimated H-index: Liquid-mediated dense integration of graphene materials for compact capacitive energy storage.

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

Other Papers By First Author. Access to Document Nature CommunicationsVol. Are you looking for Biomimetic superelastic graphene-based cellular monoliths. The ability to maintain structural integrity upon large deformation is essential to ensure a macroscopic material which functions reliably.

However, monolitsh has remained a great challenge auperelastic achieve high elasticity in three-dimensional graphene networks. Chen Zhang 23 Estimated H-index: Biomimetic superelastic graphene-based cellular monoliths Ling Qiu, Jeffery Z. Luis Estevez 16 Estimated H-index: