Since the first successful synthesis of graphene just over a decade ago, a variety of two-
dimensional (2D) materials (eg, transition metal-dichalcogenides, hexagonal boron-nitride …

Origami traces its origins to an ancient art form transforming flat thin surfaces into various
complex, fabulous 3D objects. Nowadays, such transformation transcends art by offering a …

A rapidly expanding area of research in materials science involves the development of
routes to complex 3D structures with feature sizes in the mesoscopic range (that is, between …

Origami is inspiring several fields of knowledge such as engineering, aerospace systems,
medicine, and biomechanics, motivating the creation of novel adaptive and morphing …

Nanoporous adsorbents are a diverse category of solid-state materials that hold
considerable promise for vehicular hydrogen storage. Although impressive storage …

This paper is organized to present eigenvalue-eigenvector based solution method for elastic
bending analysis of foldable Golf Clubs cylindrical shell reinforced with graphene origami …

The construction of atomically precise carbon nanostructures holds promise for develo**
materials for scientific study and nanotechnology applications. Here, we show that graphene …

Foldability capacity is now introduced as a novel nanofiller reinforcement production
procedure using some operation to control the mechanical, thermal and electrical properties …

Auxetic metamaterials with programable negative Poisson's ratio (NPR) are of great
significance in engineering applications. These materials, however, are either mechanically …

The arts of origami and kirigami inspired numerous examples of macroscale hierarchical
structures with high degree of reconfigurability and multiple functionalities. Extension of …