Abstract Three-dimensional macrostructures (3DMs) of graphene and graphene oxide are
being developed for fast and efficient removal of contaminants from water and air. The large …

With the development of electronic technologies, electronic devices become smaller, while
their power density increases dramatically. The resulting excessive heat requires excellent …

Presently, clinical nanomedicine and nanobiotechnology have impressively demanded the
generation of new organic/inorganic analogues of graphene (as one of the intriguing …

Assembling graphene into three-dimensional (3D) structure while preserving the superior
physical properties of graphene have attracted a great deal of attention for its potential …

As an important part of the heat dissipation system of electronic devices, thermal interface
membranes (TIM) can largely eliminate the interface thermal resistance between electronic …

A 3D macroporous graphene foam based ultra-lightweight, stiff and fatigue-resistant
mechanical metamaterial is developed in this study. In-situ indentation of the 3D graphene …

Understanding the structure-mechanics relationships in cellular solids is essential for using
the same material to achieve better mechanics. We use multiscale modeling and …

Fuel tank fires and explosions are the primary causes of military and civilian aircraft losses
and have been a major concern for the aviation and defense industries. Passive protection …

High‐pressure resistant and multidirectional compressible materials enable various
applications but are often hindered by structure‐derived collapse and weak elasticity. Here …

Osteoarthritis, a major global cause of pain and disability, is driven by the irreversible
degradation of hyaline cartilage in joints. Cartilage tissue engineering presents a promising …