High Pressure, Materials

Washington, DC — A team of scientists led by Carnegie’s Lin Wang has observed a new form of very hard carbon clusters, which are unusual in their mix of crystalline and disordered structure. The material is capable of indenting diamond.

Geochemistry

Washington, DC — In order to understand Earth's earliest history--its formation from Solar System material into the present-day layering of metal core and mantle, and crust--scientists look to meteorites.

Planetary Science

Washington, DC, 12 July 2012 — New research led by Carnegie scientists indicates that frozen water distributed throughout much of the early Solar System is the source of water on Earth. 

Mineralogy, Planetary Science

Washington, DC — Mineral evolution posits that Earth’s near-surface mineral diversity gradually increased through an array of chemical and biological processes.

Astrobiology, Planetary Science

Washington, DC — Molecules containing large chains of carbon and hydrogen--the building blocks of all life on Earth--have been the targets of missions to Mars from Viking to the present day.

High Pressure

Washington, DC, 4 May 2012- A collaborative experimental effort with Carnegie researchers has discovered unknown properties of a computer memory material that will allow for faster data transfer with a higher capacity of data stored.

High Pressure

Washington, DC — How hydrogen--the most abundant element in the cosmos--responds to extremes of pressure and temperature is one of the major challenges in modern physical science.

Geochemistry, High Pressure

Washington, DC, 28 March 2012- A Carnegie scientists' observations have led the way to stabilizing tungsten hydrides under high pressure.

High Pressure, Materials

Washington, DC — Superconductivity is a rare physical state in which matter is able to conduct electricity—maintain a flow of electrons—without any resistance.

High Pressure

Washington, DC, 21 February 2012- In a combined experimental effort researchers from the Geophysical Laboratory, Oak Ridge National Laboratory and Steacie Institute for Molecular Sciences now have a better understanding of a form of high pressure methane clathrate hydrate.

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