Nature has had 3.8 billion years of evolution to refine and perfect designs and processes for survival—everything from the design of a bird's wing to how seeds pollinate. In contrast, humans have only ...

Two-dimensional carbon layers, so-called graphenes, are regarded as a possible substitute for silicon in the semiconductor industry. The electronic properties of these layers can be varied by ...

Research on graphene has revealed remarkable phenomena arising in the honeycomb lattice. However, the quantum spin Hall effect predicted at the K point could not be observed in graphene and other ...

A polyurethane foam system from BASF has reportedly enabled for the first time mass-production of an exterior car part featuring a honeycomb sandwich structure with a class-A film. Polyurethane-based ...

Recently, the research team led by JIANG Zhizhong, from Hefei Institutes of Physical Science (HFIPS) of Chinese Academy of Sciences (CAS), found a honeycomb structure in localized regions at the top ...

Negative stiffness honeycombs are a hexagonal cell structure that turns soft under pressure, but then resumes its resiliency without internal breakage. Share on Facebook (opens in a new window) Share ...

Honeycomb lattices and fractal structures are found in a range of biological materials. Now, scientists in the US, the UK and France have combined the two types of pattern to create a strong and ...

Billions of years ago, Earth was home to extreme environments, including intense UV radiation, frequent volcanic eruptions, and very high concentrations of carbon dioxide in the atmosphere. Yet, under ...

Billions of years ago, Earth was home to extreme environments, including intense UV radiation, frequent volcanic eruptions, and very high concentrations of carbon dioxide in the atmosphere. Yet, under ...