DNA provides the fundamental basis of most life on Earth. Its properties, some of which are still being discovered today, show just how flexible and finely-honed living creatures truly are. Everything ...

Double-helix molecules are frequently encountered in biological and synthetic organic systems, where they typically provide improved strength and better electrical properties relative to materials ...

The single-walled nanotube (SWNT) is an interesting nanostructure for fundamental research and potential applications. However, very few inorganic SWNTs are available to date due to the lack of ...

Inorganic chemistry deals with the study of non-living matter, including minerals, metals, nonmetals, and their compounds, which do not involve carbon-hydrogen bonds. Inorganic compounds can exhibit ...

Intriguing new evidence of lifelike structures that form from inorganic substances in space have just been revealed. The findings hint at the possibility that life beyond earth may not necessarily use ...

TALLAHASSEE, Fla. -- An international team of researchers discovered that inorganic chemicals can self-organize into complex structures that mimic primitive life on Earth. Florida State University ...

An international research project, led by The University of Warwick and University of Lille, has used nanotube compression to transform the underlying chemistry and physics of a compound, creating a ...

Chirality—often described as "handedness"—is a fundamental property of nature, underlying the behavior of molecules ranging from DNA to pharmaceuticals. While chemists have long known how to separate ...

Zinc oxide is an inorganic compound with the chemical formula ZnO. It occurs as a white powder that is nearly insoluble in water. It crystallizes in two main forms, hexagonal wurtzite and cubic ...

As compared to organic chemistry, which is a study dedicated to carbon-containing compounds, the area of inorganic chemistry examines the properties and behaviors of all other compounds including ...